Showing total 728,489 results

151. Paper‐Based Microfluidics for Electrochemical Applications

Author

Bastian J. M. Etzold, Gui-Rong Zhang, and Liu-Liu Shen

Subjects

paper devices, batteries, Microfluidics, electrochemical sensors, microfluidics, Reviews, Nanotechnology, 02 engineering and technology, Paper based, Review, fuel cells, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 7. Clean energy, Energy sector, Catalysis, Energy storage, 0104 chemical sciences, Electrochemistry, Fuel cells, Electronics, 0210 nano-technology

Abstract

Paper‐based microfluidics is characteristic of fluid transportation through spontaneous capillary action of paper and has exhibited great promise for a variety of applications especially for sensing. Furthermore, paper‐based microfluidics enables the design of miniaturized electrochemical devices to be applied in the energy sector, which is especially attractive for the rapid growing market of small size disposable electronics. This review gives a brief summary on the basics of paper chemistry and capillary‐driven microfluidic behavior, and highlights recent advances of paper‐based microfluidics in developing electrochemical sensing devices and miniaturized energy storage/conversion devices. Their structural features, working principles and exemplary applications are comprehensively elaborated and discussed. Additionally, this review also points out the existing challenges and future opportunities of paper‐based microfluidic electronics., Paper‐based microfluidics emerges as a powerful and versatile platform for constructing simple, inexpensive, environmentally‐friendly and high‐performing miniaturized electrochemical devices for various applications. This review summarizes the basics of paper‐based microfluidics and highlights some recent advances of paper‐based microfluidics in developing electrochemical sensing and energy storage/conversion devices. Their structural features, working principle and exemplary applications are comprehensively elaborated and discussed. This review also points out the existing challenges and future opportunities of paper‐based microfluidic electronics.

Published

2019

152. High Weight-Specific Power Density of Thin-Film Amorphous Silicon Solar Cells on Graphene Papers

Author

Liyou Yang, Xin Zhang, Linfeng Lu, Jinrong Cheng, Min Yin, Guqiao Ding, Dongdong Li, Chi Zhang, Shuangying Cao, and Peng Wang

Subjects

Amorphous silicon, Materials science, Graphene paper, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 01 natural sciences, law.invention, chemistry.chemical_compound, law, Thermal, lcsh:TA401-492, General Materials Science, Thin film, Power density, Graphene oxide paper, Nano Express, Graphene, business.industry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Cadmium telluride photovoltaics, 0104 chemical sciences, chemistry, Optoelectronics, Thin-film solar cells, lcsh:Materials of engineering and construction. Mechanics of materials, Flexibility, 0210 nano-technology, business, Weight-specific power density

Abstract

Flexible thin-film solar cells with high weight-specific power density are highly desired in the emerging portable/wearable electronic devices, solar-powered vehicles, etc. The conventional flexible metallic or plastic substrates are encountered either overweight or thermal and mechanical mismatch with deposited films. In this work, we proposed a novel substrate for flexible solar cells based on graphene paper, which possesses the advantages of being lightweight and having a high-temperature tolerance and high mechanical flexibility. Thin-film amorphous silicon (a-Si:H) solar cells were constructed on such graphene paper, whose power density is 4.5 times higher than that on plastic polyimide substrates. In addition, the a-Si:H solar cells present notable flexibility whose power conversion efficiencies show little degradation when the solar cells are bent to a radius as small as 14 mm for more than 100 times. The application of this unique flexible substrate can be extended to CuInGaSe and CdTe solar cells and other thin-film devices requiring high-temperature processing.

Published

2019

153. Intense Pulsed Light unprinting for reducing life-cycle stages in recycling of coated printing paper

Author

Keri Rickman, Chih-Hung Chang, Changqing Pan, Rajiv Malhotra, and Michael Dexter

Subjects

Potential impact, Coated paper, Materials science, Renewable Energy, Sustainability and the Environment, business.industry, Scanning electron microscope, 020209 energy, Strategy and Management, medicine.medical_treatment, 05 social sciences, Context (language use), 02 engineering and technology, Intense pulsed light, Micrography, Industrial and Manufacturing Engineering, Paper recycling, Colored, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, medicine, Optoelectronics, business, 0505 law, General Environmental Science

Abstract

Unprinting of paper can reduce multiple life-cycle stages in the recycling of paper to yield significant environmental impact. Laser-unprinting has been demonstrated for uncoated paper but causes significant damage to coated paper. This work explores a scalable optical (non-laser) process for unprinting coated paper. Printed coated paper is exposed to pulsed broad-spectrum Intense Pulsed Light (IPL) from a xenon lamp and the toner is then removed by dabbing gently with an ethanol wipe. While black toner is easily unprinted, unprinting of colored prints (red, blue, green) is best realized by incorporating an initial overprint of black toner. An unprinting throughput on the order of mm2/s is achieved. Three distinct regimes of unprinting are identified based on the extent of toner removal and damage of the paper. The optical properties of the unprinted paper, characterized via UV–Visible spectrophotometry, are correlated to these regimes to understand the potential for in-situ optical process monitoring. Scanning Electron Micrography and Fourier-Transform Infrared Spectroscopy are performed to understand the underlying mechanisms that govern the occurrence of the different unprinting regimes. Further, the potential impact of the developed approach on recycling of paper is discussed in the context of the capabilities of current optical unprinting approaches and the potential elimination of life-cycle stages in conventional paper recycling.

Published

2019

154. Sequential treatment of paper mill effluent with modified Fenton oxidation and bioflocculation

Author

Krishna G. Bhattacharyya, Arundhuti Devi, Mihirjyoti Pathak, Suravi Kalita, Khanindra Sharma, and Neelotpal Sen Sarma

Subjects

Pollutant, Economics and Econometrics, Flocculation, Chemistry, business.industry, Geography, Planning and Development, Chemical oxygen demand, 0211 other engineering and technologies, Paper mill, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, Contamination, Pulp and paper industry, 01 natural sciences, Bioassay, Degradation (geology), 021108 energy, business, Effluent, 0105 earth and related environmental sciences

Abstract

Pollutants emerging from the effluents of paper mills eventually destroy the environment of our ecosystem. To find a proper solution of it, a cost-effective and environmentally benign technique is proposed here to remediate contaminants present in the effluent of paper mill in a sequential steps using advanced oxidation processes including Fenton reaction (FO) (Fe(II)/H2O2), modified Fenton oxidation (MFO) (Fe(II)/Zn(II)/H2O2) and biological flocculation process. A comparison and compilation among these techniques were carried out on the basis of the percentage removal of chemical oxygen demand (COD) as well as the observed degradation pattern in gas chromatography–mass spectrometry. Results revealed that MFO could remove ≥ 90% of COD at ~ 90 min, whereas FO could eliminate ≥ 80% COD at ~ 120 min. Further, the bioflocculation technique was found to reduce the heavy metal contents such as Fe, Mn, Zn, Co, Cd and Pb by ≥ 60%. In the sequential treatment process, lignin, phenolic and colour contents were also found to be reduced by ~ 84% ~ 97% and ~ 96%, respectively. Again, the bioassay tests were performed to verify the toxicity reduction in the industrial effluent after the application of the sequential treatment process. This study demonstrates that the sequential treatment technique could be an effective alternative for the treatment of paper mill effluent.

Published

2019

155. Different ways to express personal attitudes in Spanish and English engineering papers: An analysis of metadiscourse devices, affective evaluation and sentiment analysis

Author

Carrió-Pastor, María Luisa

Subjects

050101 languages & linguistics, Linguistics and Language, Metadiscourse, Communication, 05 social sciences, Sentiment analysis, Research papers, 02 engineering and technology, Attitude devices, Spanish, FILOLOGIA INGLESA, Language and Linguistics, Linguistics, Engineering, English, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, 0501 psychology and cognitive sciences, Sociology

Abstract

The hypothesis of this paper is that writers with similar academic backgrounds express personal attitudes in English and in Spanish differently in research papers. Thus, the main objectives are, first, to study the differences in the use of attitude devices in Spanish and English academic discourse; second, to compare the results in the different sections of articles; and finally to study the positive or negative semantic implications of the lexical items by carrying out a sentiment analysis. To this end, fifteen Spanish industrial engineering papers were compared with fifteen English industrial engineering papers. The results showed that there are in fact differences in the way academic writers communicate attitude, but the sentiment analysis revealed that neutral lexical items were the most commonly used in engineering research papers. Even though engineering researchers share the knowledge of the specialist content and the academic style of expressing their thoughts, personal attitudes were expressed in different ways in Spanish and in English.

Published

2019

156. Optimal scheduling ratio of recycling waste paper with NSGAII based on deinked-pulp properties prediction

Author

Yin Liu, Wenhao Shen, Panos Seferlis, Yi Man, and Zhang Liu

Subjects

021103 operations research, General Computer Science, business.industry, Computer science, Pulp (paper), 0211 other engineering and technologies, General Engineering, Waste paper, 02 engineering and technology, engineering.material, Deinking, law.invention, law, Optimal scheduling, 0202 electrical engineering, electronic engineering, information engineering, engineering, 020201 artificial intelligence & image processing, Process engineering, business

Abstract

The recycling of waste paper has been an effective way to achieve the environmental-friendly growth of papermaking industry. Focusing on the mixed-pulping process which has been generally employed, to ensure the required properties of the deinking pulp (DIP) and minimize the purchase cost of waste paper, an intelligent model scheduling the mixing ratio of waste paper was developed in the study. Primarily, driven by the field data of mixing ratio of waste paper and DIP properties, the prediction models of DIP properties were developed by SVM, GA-SVM, and BP-NN algorithms. Subsequently, based on the best prediction model, the scheduling model for the mixing ratio of waste paper was set up by NSGAII algorithm. The experimental results showed that, based on the obtained best BP-NN prediction model of DIP properties, the developed NSGAII scheduling model for the ratio of waste paper could achieve excellent scheduling results under the rigorous constraints and multi-objective. Compared with the previous study, the developed prediction and scheduling models in this study reduced the purchase cost of waste paper by 2.16%, and improved the acceptable proportion of DIP property from 56.07% to 100%.

Published

2019

157. Paper platform for determination of bumetanide in human urine samples to detect doping in sports using digital image analysis

Author

Leonardo Pezza, Eduardo Luiz Rossini, Helena Redigolo Pezza, L. S. Lima, Vitor Hugo Marques Luiz, and Universidade Estadual Paulista (Unesp)

Subjects

Digital image analysis, Detection limit, Materials science, Chromatography, Filter paper, 010401 analytical chemistry, Doping, Paper platform, 02 engineering and technology, Urine, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Digital image, medicine, 0210 nano-technology, Bumetanide, Spectroscopy, medicine.drug

Abstract

Made available in DSpace on 2019-10-06T17:04:31Z (GMT). No. of bitstreams: 0 Previous issue date: 2019-06-01 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) Development and application of a new, simple, inexpensive, and eco-friendly method is presented for the quantification of bumetanide in human urine samples for the detection of doping in sports. The method involves the use of a paper platform and digital image detection and is based on the reaction between bumetanide, p-dimethylaminocinnamaldehyde (p-DAC), and HCl in a methanolic medium, yielding a colored compound in a delimited area on a qualitative filter paper. The concentrations of p-DAC and HCl were optimized by a chemometric experimental design. After the addition of the reagents to the paper, digital images were obtained by scanning in a multifunctional printer and analyzed using the RGB pattern. The linear bumetanide concentration range was 6.90 × 10 −5 –1.37 × 10 −3 mol L −1 with R 2 = 0.993 and the limits of detection (LOD) and quantification (LOQ) were 3.60 × 10 −4 and 1.09 × 10 −4 mol L −1 , respectively. A SPE clean-up step for the samples were required to eliminate the interference of urinary urea. The recoveries obtained varied from 94% to 105%, indicating the absence of significant matrix effects or interferences in urine samples after clean-up step. The proposed method was successfully applied to the analysis of bumetanide in human urine samples. Instituto de Química Universidade Estadual Paulista “Júlio de Mesquita Filho” UNESP, R. Prof. Francisco Degni 55, P.O. Box 355 Instituto de Química Universidade Estadual Paulista “Júlio de Mesquita Filho” UNESP, R. Prof. Francisco Degni 55, P.O. Box 355 CAPES: 001 FAPESP: 2015/21733-1

Published

2019

158. Plasmonic Paper Microneedle Patch for On-Patch Detection of Molecules in Dermal Interstitial Fluid

Author

Sisi Cao, Chandana Kolluru, Rohit Gupta, Hamed Gholami Derami, Mikayla Williams, Mark R. Prausnitz, Richard K. Noel, Qisheng Jiang, and Srikanth Singamaneni

Subjects

Paper, Materials science, Injections, Intradermal, Bioengineering, Nanotechnology, 02 engineering and technology, Spectrum Analysis, Raman, Proof of Concept Study, 01 natural sciences, Article, Rhodamine 6G, chemistry.chemical_compound, symbols.namesake, Interstitial fluid, Animals, Molecule, Instrumentation, Plasmon, Fluid Flow and Transfer Processes, Nanotubes, Filter paper, Rhodamines, Process Chemistry and Technology, 010401 analytical chemistry, Extracellular Fluid, Dermis, Surface-enhanced Raman spectroscopy, 021001 nanoscience & nanotechnology, Rats, 0104 chemical sciences, chemistry, Needles, Point-of-Care Testing, symbols, Polystyrenes, Female, Nanorod, Gold, 0210 nano-technology, Raman scattering

Abstract

Minimally invasive devices to detect molecules in dermal interstitial fluid (ISF) are desirable for point-of-care diagnostic and monitoring applications. In this study, we developed a microneedle (MN) patch that collects ISF for on-patch biomarker analysis by surface-enhanced Raman scattering (SERS). The micrometer-scale MNs create micropores in the skin surface, through which microliter quantities of ISF are collected onto plasmonic paper on the patch backing. The plasmonic paper was prepared by immobilizing poly(styrenesulfonate) (PSS) coated gold nanorods (AuNRs) on a thin strip of filter paper using plasmonic calligraphy. Negatively charged PSS was used to bind positively charged rhodamine 6G (R6G), which served as a model compound, and thereby localize R6G on AuNR surface. R6G bound on the AuNR surface was detected and quantified by acquiring SERS spectra from the plasmonic paper MN patch. This approach was used to measure pharmacokinetic profiles of R6G in ISF and serum from rats in vivo. This proof-of-concept study indicates that a plasmonic paper MN patch has the potential to enable on-patch measurement of molecules in ISF for research and future medical applications.

Published

2019

159. Paper-based microfluidic devices for glucose assays employing a metal-organic framework (MOF)

Author

Katherine J. Nelms, Joshua D. Sosa, Yangyang Liu, Alexis Basa, Grenalynn C. Ilacas, and Frank A. Gomez

Subjects

Paper, Analyte, Microfluidics, 02 engineering and technology, 01 natural sciences, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Lab-On-A-Chip Devices, Environmental Chemistry, Glucose oxidase, Metal-Organic Frameworks, Spectroscopy, Polyvinyl acetate, biology, Parafilm, Chemistry, 010401 analytical chemistry, Paper based, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Paper chromatography, Glucose, Chemical engineering, biology.protein, Colorimetry, Metal-organic framework, 0210 nano-technology

Abstract

This paper describes the development of two microfluidic paper-based analytical devices (μPADs), one well-based and the other based on a lateral flow assay (LFA) configuration, to detect glucose via a colorimetric assay using the solid metal-organic framework (MOF) Zr-PCN-222(Fe), to encapsulate glucose oxidase (GOx). The well-based platform consisted of laminate sheets and multiple layers of wax-printed chromatography paper. Solutions of KI and glucose placed into the well flowed through the device and reacted with the GOx@MOF species sandwiched between the paper layers realizing a yellow-brown color. The LFA platform consisted of chromatography paper between parafilm and polyvinyl acetate (PVA) layers. GOx@MOFs spotted on the paper subjected to solutions of KI and glucose yielded a brown color. The devices were then dried, scanned, and analyzed yielding a correlation between average inverse yellow intensity and glucose concentrations. The development of these devices employing MOFs as biomimetic catalysts should further expand the applications of microfluidic technologies for sensors a variety of analytes.

Published

2019

160. Determining special features in the topography of paper with water marks at the micro­ and nanolevels

Author

Tetiana Klymenko, Nadiia Talimonova, Tetiana Kyrychok, and Katerina Svezhentsova

Subjects

Materials science, 020209 energy, 0211 other engineering and technologies, Chaotic, Energy Engineering and Power Technology, 02 engineering and technology, Surface finish, surface structure of paper, Industrial and Manufacturing Engineering, Optics, Management of Technology and Innovation, 021105 building & construction, Microscopy, lcsh:Technology (General), 0202 electrical engineering, electronic engineering, information engineering, Surface structure, lcsh:Industry, Electrical and Electronic Engineering, roughness, contact profilometry, atomic force microscopy, business.industry, Atomic force microscopy, Applied Mathematics, Mechanical Engineering, Experimental research, Computer Science Applications, Control and Systems Engineering, tamper-proof paper, lcsh:T1-995, Nanometre, lcsh:HD2321-4730.9, Profilometer, business

Abstract

We have studied the surface structure of tamper-proof paper with positive and negative watermarks at different scales ‒ from a micrometer to a nanometer level, by using the methods of contact profilometry and atomic force microscopy. Experimental research has confirmed that the structural parameters of the tamper-proof paper's surface differ at regions with and without watermarks. The results of measurements by a contact profilometer have made it possible to trace a correlation between values of the profile's mean arithmetic deviation and the presence of watermarks. It was determined that the value for the profile's largest height does not depend on a measurement region, which could be related to the chaotic arrangement of fibers and particles of the filler in the paper bulk that protrude above the profile's line. By analyzing the value of the profile's mean arithmetic deviation obtained by using a method of atomic-force microscopy, it was found that for regions with negative watermarks it is larger than that for regions with positive watermarks. The dependence of the profile's largest height on measurement region is not clearly observed. This may be due to that the size of the examined region (3,000×3,000 nm) covers only part of the pulp fibers. Thus, the results of our analysis allow us to argue that both methods are suitable for estimating the characteristics of paper's surface, and determine the character of interaction between a given type of paper and printing inks during printing process. In particular, it has been established that the method of profilometry makes it possible to determine parameters of the paper's surface profile, formed in a certain way, while the atomic force microscopy method allows analysis of the morphology of its components, located at the surface (fibers, filler's particles, etc.). The availability of information on the structural properties of paper makes it possible to predict the quality of printing reproduction, specifically clearness of reproduction of thin guilloche lines on watermarks, which is relevant because it prevents flaws in printing products for special purposes.

Published

2019

161. Approaches for converting sugarcane trash, a promising agro residue, into pulp and paper using soda pulping and elemental chlorine-free bleaching

Author

Mani Sharma, Smita Chaudhry, Nishi Kant Bhardwaj, Daljeet Kaur, and Satyajeet Arya

Subjects

Chlorine dioxide, Renewable Energy, Sustainability and the Environment, 020209 energy, Strategy and Management, Pulp (paper), Papermaking, 05 social sciences, Elemental chlorine free, 02 engineering and technology, Raw material, engineering.material, Pulp and paper industry, Environmentally friendly, Industrial and Manufacturing Engineering, chemistry.chemical_compound, chemistry, Soda pulping, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, engineering, Environmental science, Bagasse, 0505 law, General Environmental Science

Abstract

Industrialization and urbanization are the key drivers to threaten the environmental quality and natural resources. Traditionally, pulp and paper industry has been highly reliant on forest based resources for its escalation. Shortage of forest based raw materials, strict environmental regulations and policies have compelled the industry to seek for alternate raw materials for its production. Mills are now focusing on exploring the potential of different agro wastes such as cereal straws and bagasse etc. In present research, sugarcane trash, one of the most abundant agro residues in India, was investigated for its capability in pulping and bleaching. Chemical characterization of sugarcane trash showed that it contains 40.4% cellulose, 33.2% hemicelluloses, 17.4% lignin and 6.45% ash content with 2.76% silica. To cook sugarcane trash with soda pulping method, 14% alkali charge, 15 min time and 162 °C temperature was found to be optimum and pulp of kappa no. 19.8 was prepared that exhibited good strength properties. Bleaching of pulp was carried out using elemental chlorine (Cl2), hypochlorite and chlorine dioxide (ClO2) based sequences. Replacement of Cl2 with ClO2 has significant impact on strength properties and effluent characteristics. Oxygen delignification stage was incorporated prior to ClO2 that resulted in improved optical properties of pulp with noticeable reduction in wastewater load. This paper elaborates the need of using sugarcane trash in paper mills with environment friendly pulping and bleaching processes to combat with the problem of waste management, wastewater load reduction during bleaching and substitute for wood based raw materials in papermaking.

Published

2019

162. Biogas production by two-stage thermophilic anaerobic co-digestion of food waste and paper waste: Effect of paper waste ratio

Author

Hao Yi, Jing Wu, Benyi Xiao, Yu Qin, Yu You Li, Junxin Liu, and Wenzhe Zhang

Subjects

Municipal solid waste, 060102 archaeology, Renewable Energy, Sustainability and the Environment, 020209 energy, Alkalinity, Substrate (chemistry), 06 humanities and the arts, 02 engineering and technology, Pulp and paper industry, Methane, chemistry.chemical_compound, Food waste, chemistry, Yield (chemistry), 0202 electrical engineering, electronic engineering, information engineering, 0601 history and archaeology, Ammonium, Composition (visual arts)

Abstract

The effects of paper waste (PW) ratio on biogas production by two-stage thermophilic anaerobic co-digestion (coAD) of food waste (FW) and PW, two main components of organic fraction of municipal solid waste, were evaluated in lab-scale continuously stirred tank systems with semi-continuous feeding. Four PW ratios (0, 20, 40, and 50%) were studied in the test. The experimental results showed the two-stage thermophilic coAD could operate stably after an adjustment period at all PW ratios. Although the increase of PW ratio decreased methane content, production and yield, reaction rates of four AD steps, it could increase the methane production of substrate when the FW was fixed. The pH, total volatile fatty acids, total alkalinity, and total ammonium of the sludge in the second stage of AD, also decreased with the increase of PW ratio in the test. The change of the substrate's organic composition, increase of carbohydrate and decrease of protein and lipid, were the main reason for the decrease of methane content, production and yield and changes of the second stage sludge characteristics. An apposite PW ratio (PW-20%) could enhance the degradation of matters (TS, VS and TCOD).

Published

2019

163. Influence of industrial by-products and waste paper sludge ash on properties of recycled aggregate concrete

Author

Tomoaki Satomi, Hiroshi Takahashi, and Ngoc Kien Bui

Subjects

Cement, Aggregate (composite), Silica fume, Renewable Energy, Sustainability and the Environment, Chemistry, 020209 energy, Strategy and Management, 05 social sciences, Waste paper, 02 engineering and technology, Pulp and paper industry, Durability, Industrial and Manufacturing Engineering, law.invention, Portland cement, law, Fly ash, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Metakaolin, 0505 law, General Environmental Science

Abstract

This paper examines the mechanical properties and durability of recycled aggregate concrete (RAC) containing 100% coarse recycled concrete aggregate (RCA) and industrial by-products. The by-products, including waste paper sludge ash (PSA), fly ash (FA), silica fume (SF), and metakaolin (MK) of different proportions (5%, 10%, 15%) in RAC, were used in two methods: replacement and addition methods. The use of by-products (mineral admixtures) to mitigate the low quality of RAC was demonstrated through experimental outcomes in this study. The addition of industrial by-products was presented as a promising alternative for the addition of more Portland cement in RAC to enhance RAC's quality. The results showed that the strength and durability of RAC containing mineral admixtures in the addition method were higher than the addition of more cement or the replacement method. Notably, PSA considerably improved the mechanical properties of RAC at an early age, and it substantially improved the resistance of RAC to acid and sulfate attacks. At 90 days, FA and MK improved mechanical properties of RAC greater than SF and PSA did. Among combinations, the proportions of by-products in RAC of 5% PSA, 10% SF, 15% MK and 15% FA can produce the highest performance of RAC with 100% coarse recycled concrete aggregate (RCA).

Published

2019

164. Novel paper-based electroanalytical tools for food surveillance

Author

Stefano Cinti and Cinti, S.

Subjects

Paper, Food Analysi, Computer science, media_common.quotation_subject, Biosensing Techniques, 02 engineering and technology, 01 natural sciences, Biochemistry, Analytical Chemistry, Biosensing Technique, Quality (business), Screen printing, media_common, Electrochemical Technique, Ethanol, 010401 analytical chemistry, Food electrochemistry, Food surveillance, Electrochemical Techniques, Paper based, Sustainable, 021001 nanoscience & nanotechnology, Ascorbic acid, Food Analysis, 0104 chemical sciences, Waste generation, Inkjet printing, Risk analysis (engineering), Food products, Manufacturing methods, 0210 nano-technology

Abstract

Analytical strategies to ensure the quality and safety of food products without the need for skilled personnel are highly required. The simplicity of glucose strips for diabetes monitoring should be translated to the agri-food sector, ensuring easy evaluation of certain molecules and/or the freshness of a beverage/foodstuff. In addition to the well-known advantages that are characteristic of electroanalytical methods over other methods, paper-based materials are being used to further reduce the gap between complex laboratory testing and simple point-of-need testing. This article highlights some of the most recent advances in the development of paper-based electrochemical approaches for food surveillance, specifically focusing on the use of novel paper-based materials. Two examples are discussed: the development of a miniaturized biosensor realized on copy paper for the quantification of ethanol in commercial beers, and the measurement of ascorbic acid in food supplements within printed electronics supports. Paper-based materials have the potential to lower economic costs, simplify the operative tasks, and most importantly reduce waste generation. The continued combination of manufacturing methods and functional (smart) materials will facilitate the implementation of food analysis at the point of need.

Published

2019

165. FLUORESCENT PROPERTIES OF PAPER INSULATION OF OIL-FILLED TRANSFORMERS

Author

V. K. Kozlov, M. Sh. Garifullin, A. Kh. Sabitov, and R A. Giniatullin

Subjects

TK1001-1841, Materials science, Absorption spectroscopy, absorption spectra, 020209 energy, Physics::Optics, lignin, 02 engineering and technology, the degree of polymerization of paper, Condensed Matter::Materials Science, Production of electric energy or power. Powerplants. Central stations, 0203 mechanical engineering, Impurity, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Physics::Atomic and Molecular Clusters, luminescence excitation spectra, Spectroscopy, optical spectroscopy, Condensed Matter::Other, humic substances, paper, luminescence spectra, thermal destruction, cellulose, Wavelength, 020303 mechanical engineering & transports, Excited state, Atomic physics, Luminescence, Intensity (heat transfer), dissolved organic substances

Abstract

The effect of paper thermal destruction on its luminescence spectra and luminescence excitation spectra in the spectral ranges of 400-550 nm and 250-450 nm, respectively, was studied. It is proposed to use the characteristic changes in the intensity and shape of the luminescence spectra as a criterion for the state of paper insulation of power transformers. On the basis of the analysis performed, it was concluded that when luminescence is excited at a wavelength of 360 nm, none of the main components of the paper can contribute to the recorded luminescence spectra. It is assumed that the resulting luminescence spectra are due to the emission of various impurities that enter the paper during its production.

Published

2019

166. Exploring Planococcus sp. TRC1, a bacterial isolate, for carotenoid pigment production and detoxification of paper mill effluent in immobilized fluidized bed reactor

Author

Anuj Kumar, Subhasree Majumdar, Tamal Mandal, Dalia Dasgupta Mandal, and Rashmi Priyadarshinee

Subjects

Pulp mill, Renewable Energy, Sustainability and the Environment, Chemistry, business.industry, 020209 energy, Strategy and Management, 05 social sciences, Paper mill, 02 engineering and technology, Pulp and paper industry, Industrial and Manufacturing Engineering, Bioremediation, Wastewater, Fluidized bed, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, Freundlich equation, Sewage treatment, business, Effluent, 0505 law, General Environmental Science

Abstract

Pulp and paper industry is one of the high priority sectors that generates large amount of solid (sludge) and liquid (paper mill effluent) wastes. Making use of this huge quantity of paper mill sludge (PMS) in an environment friendly manner is challenging and cost involving. Similarly the present wastewater treatment strategies based on physical and chemical methods encounter certain serious setbacks including secondary pollution generation with expensive mode of abatement processes. The present study aims at a “waste treats waste” strategy for the bioremediation of paper mill effluent in fluidized bed reactor (FBR) using another waste of the same industry, PMS as immobilizing matrix for Planococcus sp. TRC1, a wastewater bacterial isolate. This study simultaneously explores this isolate for the yellowish orange pigment it produces (2.3 ± 0.2 mg/gm of dry bacterial biomass) and characterizes it as a member of the pharmacologically important carotenoid pigment family via UV-Vis spectrophotometry, TLC, FT-IR and 13C NMR. The antioxidant potential of this pigment was studied by DPPH assay (IC50 = 33 ± 0.4 μg/ml) and H2O2 assay (IC50 = 147.4 ± 2.2 μg/ml). In FBR, the PMS immobilized bacteria showed removal of phenol, lignin, colour and COD from the effluent by 96%, 74%, 81% and 85% respectively after 60hr of treatment. The experimental data on immobilization fitted well with pseudo second-order (R2 = 0.955) and Freundlich adsorption isotherm (R2 = 0.996) models. The alterations in PMS before and after bacterial immobilization, as revealed by SEM and FT-IR, depicted the success of PMS as immobilization matrix. Phytotoxicity (90% seed germination) and mutagenicity studies confirmed that the treated effluent was substantially less toxic than its raw state. This study highlights a novel utilization possibility of PMS in an eco-friendly and economic way as immobilization matrix for Planococcus sp.TRC1 for paper pulp mill effluent treatment along with production of carotenoid pigment from this potential bacterial isolate as value added product.

Published

2019

167. Performance of continuous pilot subsurface constructed wetland using Scirpus grossus for removal of COD, colour and suspended solid in recycled pulp and paper effluent

Author

Muhamad Farhan Md Yusoff, Ahmad Habibah, Janor Hawati, Sheikh Abdullah Siti Rozaimah, and Abu Hasan Hassimi

Subjects

Suspended solids, Hydraulic retention time, biology, business.industry, 0208 environmental biotechnology, Chemical oxygen demand, Soil Science, Paper mill, 02 engineering and technology, Plant Science, Bulrush, 010501 environmental sciences, biology.organism_classification, Pulp and paper industry, 01 natural sciences, 020801 environmental engineering, Wastewater, Constructed wetland, Environmental science, business, Effluent, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Pulp and paper mill industry is already known as an extensive water user and hence produces large volume of wastewater. Phytoremediation has merits to offer due to its environmentally friendly, relatively low cost and easy maintenance. This work focused on the performance of a continuous pilot subsurface flow (SSF) system of constructed wetlands in removing chemical oxygen demand (COD) representing organic carbon, colour and suspended solids from recycled pulp and paper mill under 5-day hydraulic retention time (HRT) for 95 days. In this study, there were two tanks based on the SSF system; one tank planted with Malaysian native bulrush (Scirpus grossus) and another tank without plants acting as a control. It was found that the SSF system with S. grossus was much better compared to the SSF control. Throughout the 95-day exposure, the planted SSF system have achieved removals of 66.1, 55.8 and 87.2% for COD, colour and suspended solid (SS), respectively. However, the control SSF system without plants has lower performance for all the three parameters (62.4% COD, 44.4% colour and 84.8% SS), giving evidence that constructed wetlands is an efficient technology to phytoremediate COD, colour and SS from recycled pulp and paper effluent.

Published

2019

168. Paper-based microfluidics for DNA diagnostics of malaria in low resource underserved rural communities

Author

Edridah M. Tukahebwa, Julien Reboud, Zhugen Yang, Jonathan M. Cooper, Alice Garrett, Candia Rowell, Gaolian Xu, and Moses Adriko

Subjects

Paper, Rural Population, Adolescent, Low resource, Computer science, low-resource settings, Point-of-care testing, Microfluidics, Loop-mediated isothermal amplification, malaria, Medically Underserved Area, 02 engineering and technology, Computational biology, 01 natural sciences, Biochemistry, Polymerase Chain Reaction, law.invention, Engineering, nucleic acid-based tests, law, medicine, Humans, Medical diagnosis, Malaria, Falciparum, Child, Polymerase chain reaction, Multidisciplinary, 010401 analytical chemistry, Reproducibility of Results, Biological Sciences, DNA, Protozoan, 021001 nanoscience & nanotechnology, medicine.disease, 3. Good health, 0104 chemical sciences, Diagnosis of malaria, PNAS Plus, Molecular Diagnostic Techniques, Physical Sciences, Health Resources, paper microfluidics, 0210 nano-technology, point-of-care diagnostics, Malaria

Abstract

Significance Populations living in remote rural communities would benefit from rapid, highly sensitive molecular, DNA-based diagnostics to inform the correct and timely treatment of infectious diseases. Such information is also becoming increasingly relevant in global efforts for disease elimination, where the testing of asymptomatic patients is now seen as being important for the identification of disease reservoirs. However, healthcare workers face practical and logistical problems in the implementation of such tests, which often involve complex instrumentation and centralized laboratories. Here we describe innovations in paper microfluidics that enable low-cost, multiplexed DNA-based diagnostics for malaria, delivered, in a first-in-human study, in schools in rural Uganda., Rapid, low-cost, species-specific diagnosis, based upon DNA testing, is becoming important in the treatment of patients with infectious diseases. Here, we demonstrate an innovation that uses origami to enable multiplexed, sensitive assays that rival polymerase chain reactions (PCR) laboratory assays and provide high-quality, fast precision diagnostics for malaria. The paper-based microfluidic technology proposed here combines vertical flow sample-processing steps, including paper folding for whole-blood sample preparation, with an isothermal amplification and a lateral flow detection, incorporating a simple visualization system. Studies were performed in village schools in Uganda with individual diagnoses being completed in

Published

2019

169. Equipment-Free Detection of K+ on Microfluidic Paper-Based Analytical Devices Based on Exhaustive Replacement with Ionic Dye in Ion-selective Capillary Sensors

Author

Eric Bakker, Yoshiki Soda, and Daniel Citterio

Subjects

Materials science, Capillary action, Potassium, Microfluidics, Ionic bonding, chemistry.chemical_element, Bioengineering, Nanotechnology, 02 engineering and technology, 01 natural sciences, Ion, Ion-selective membrane, Serum measurement, Paper-based analytical devices, Instrumentation, Fluid Flow and Transfer Processes, Ion selective membrane, Potassium detection, Process Chemistry and Technology, 010401 analytical chemistry, Paper based, 021001 nanoscience & nanotechnology, Capillary sensor, 0104 chemical sciences, chemistry, ddc:540, 0210 nano-technology

Abstract

A distance-based analysis of potassium ion (K⁺) is introduced that is performed on a microfluidic paper-based analytical device (μPAD) coupled to an ion-selective capillary sensor. The concept is based on two sequential steps, the selective replacement of analyte ion with an ionic dye, and the detection of this dye in a distance-based readout on paper. To achieve the first step, the capillary sensor holds a poly(vinyl chloride) (PVC) membrane film layer plasticized by dioctyl sebacate (DOS) that contains the potassium ionophore valinomycin, a lipophilic cation-exchanger and the ionic indicator Thioflavin T (ThT) on its inner wall. Upon introduction of the sample, K⁺ in the aqueous sample solution is quantitatively extracted into the film membrane and replaced with ThT. To convert the ion exchange signal into a distance-based analysis, this solution was dropped onto the inlet area of a μPAD to flow the ThT along a channel defined by wax printing, resulting in the electrostatic binding of ThT to the cellulose carboxylic groups. The initial amount of K⁺ determines the amount of ThT in the aqueous solution after ion-exchange, and consequently the distance of ThT-colored area reflects the sample K⁺ concentration. The ion exchange reaction was operated in a so-called “exhaustive sensing mode” and gave a distinct response in a narrow range of K⁺ concentration (1–6 mM) that cannot be achieved by the classical optode sensing mode. The absence of hydrogen ions from the equilibrium competition of the capillary sensor contributed to a complete pH-independence, unlike conventional optodes that contain a pH sensitive indicator. A very high selectivity for K⁺ over Na⁺ and Ca²⁺ has been confirmed in separate solutions and mixed solutions tests. K⁺ measurements in pooled serum samples at concentrations between 2 and 6 mM are successfully demonstrated on a temperature controlled support.

Published

2019

170. Paper-based Transwell assays: an inexpensive alternative to study cellular invasion

Author

Adam Loeser, Nathan A. Whitman, Matthew R. Lockett, and Rachael M. Kenney

Subjects

Paper, 02 engineering and technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Extracellular matrix, Cell Movement, Cell Line, Tumor, Electrochemistry, Animals, Humans, Environmental Chemistry, Neoplasm Invasiveness, Spectroscopy, Chemistry, 010401 analytical chemistry, Exogenous factor, Disease progression, Reproducibility of Results, Cell movement, Paper based, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Cell biology, Cell culture, Biological Assay, Cattle, 0210 nano-technology

Abstract

Cellular movement is essential in the formation and maintenance of healthy tissues as well as in disease progression such as tumor metastasis. In this work, we describe a paper-based Transwell assay capable of quantifying cellular invasion through an extracellular matrix. The paper-based Transwell assays generate similar datasets, with equivalent reproducibility, to commercially available Transwell assays. With different culture configurations, we quantify invasion: upon addition of an exogenous factor or in the presence of medium obtained from other cell types, in an indirect or direct co-culture format whose medium composition is dynamically changing, and in a single-zone or parallel (96-zone) format.

Published

2019

171. Flexible freestanding graphene paper-based potentiometric enzymatic aptasensor for ultrasensitive wireless detection of kanamycin

Author

Yao Yao, Jianfeng Ping, and Chengmei Jiang

Subjects

Paper, Materials science, Aptamer, Potentiometric titration, Biomedical Engineering, Biophysics, Nanotechnology, Biosensing Techniques, 02 engineering and technology, 01 natural sciences, Kanamycin, Electrochemistry, medicine, Deoxyribonuclease I, Wireless, Enzyme Assays, Graphene oxide paper, Detection limit, business.industry, 010401 analytical chemistry, General Medicine, Aptamers, Nucleotide, 021001 nanoscience & nanotechnology, Biocompatible material, 0104 chemical sciences, Potentiometry, Graphite, 0210 nano-technology, business, Biosensor, Biotechnology, medicine.drug

Abstract

Flexible sensing devices have drawn tremendous attention in the past decades due to their potential applications in future hand-held, potable consumer, and wearable electronics. Here, we firstly developed an ultrasensitive wireless potentiometric aptasensor based on flexible freestanding graphene paper for kanamycin detection. Flexible graphene paper made from a simple vacuum filtration method was used as a biocompatible platform for effective immobilization of aptamer. A nuclease-assisted amplification strategy was introduced into this potentiometric biosensing system in order to significantly improve the detection sensitivity through a classic catalytic recycling reaction of target induced by the nuclease (DNase I). As expected, an ultra-low detection limit of 30.0 fg/mL for kanamycin was achieved. Furthermore, the developed potentiometric enzymatic aptasensor exhibits high selectivity, favorable flexibility, excellent stability and reproducibility, which holds great promising for its routine sensing application.

Published

2019

172. Paper for Chromatographic Technique from Coconut Pulp Cellulose

Author

Jaruwan Chutrtong and Waradoon Chutrtong

Subjects

0209 industrial biotechnology, Chromatography, Pulp (paper), food and beverages, 02 engineering and technology, engineering.material, Raw material, Standard solution, Industrial and Manufacturing Engineering, Hexane, chemistry.chemical_compound, Paper chromatography, 020303 mechanical engineering & transports, 020901 industrial engineering & automation, 0203 mechanical engineering, chemistry, Artificial Intelligence, engineering, Acetone, Cellulose, Coir

Abstract

Cellulose is an important component of green plants cell wall and other organisms. Cellulose from plants is mainly used to produce paper. Because of the widespread use of paper throughout the world, it causes the use of wood in large quantities that involves cutting down trees which can lead to negative impacts on ecosystems. Many research studied to find other raw materials that could replace wood and some focused on coconut coir because it contains high amount of cellulose which is enough to use in manufacturing. Coconut pulp is also the residue from coconut. It has 59 % cellulose. This makes it possible to use coconut pulp in paper industry. Paper for chromatography uses fiber from wood as an important component too. So, the purpose of this study was to identify whether cellulose from coconut pulp can replace the original material of chromatography paper. The procedure started from extracted impurity from coconut pulp and used the remaining for making chromatographic paper. Washed coconut pulp and removed residue coconut milk. Boiled clean coconut pulp for 10 minutes and dried in oven at 60 degree Celsius. Remove the residue fat with hexane. Drained hexane and dried in oven at 60 degree Celsius. Extracted cellulose by the soda process. Cellulose yield was 50.85%. Used extracted cellulose as raw material for making chromatographic paper. Tried different amount of cellulose per area of sieve to find the suitable for making paper. The appropriate paper area per extracted cellulose weight was about 81.25 cm2/g. Then trailed the paper used as stationary phase for color separation. The appropriate condition of mobile phase in chromatographic technique (ethyl-methyl ketone, acetone and water) to separate standard colors was also studied. The appropriate ratio of mobile phase which could separate standard solutions was 7:3:3, respectively. The results show that this paper was effective in serving as a stationary phase. This paper has the potential to be developed to use as a substitute material in Bio manufacturing.

Published

2019

173. Nanoporous hybrid CuO/ZnO/carbon papers used as ultrasensitive non-enzymatic electrochemical sensors

Author

Qijin Chi, Hou Chengyi, Fei Chen, Wenrui Zhang, Arnab Halder, and Minwei Zhang

Subjects

Materials science, Nanoporous, Graphene, General Chemical Engineering, Oxide, 02 engineering and technology, General Chemistry, Electrolyte, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Chemical engineering, chemistry, law, Specific surface area, 0210 nano-technology, Nanosheet, Graphene oxide paper

Abstract

In this research, we demonstrate a facile approach for the synthesis of a graphite-analogous layer-by-layer heterostructured CuO/ZnO/carbon paper using a graphene oxide paper as a sacrificial template. Cu2+ and Zn2+ were inserted into the interlayer of graphene oxide papers via physical absorption and electrostatic effects and then, the Mn+-graphene oxide paper was annealed in air to generate 2D nanoporous CuO/ZnO nanosheets. Due to the graphene oxide template, the structure of the obtained CuO/ZnO nanosheets with an average size of ∼50 nm was duplicated from the graphene oxide paper, which displayed a layer-by-layer structure on the microscale. The papers composed of nanosheets had an average pore size of ∼10 nm. Moreover, the as-prepared CuO-ZnO papers displayed high hybridization on the nanoscale. More importantly, the thickness of the single-layer CuO/ZnO nanosheet was about 2 nm (3-4 layer atom thickness). The as-synthesized nano-hybrid material with a high specific surface area and conjunct bimodal pores could play key roles for providing a shorter diffusion path and rapid electrolyte transport, which could further facilitate electrochemical reactions by providing more active sites. As an electrode material, it displayed high performances as a non-enzymatic sensor for the detection of glucose with a low potential (0.3 V vs. SCE), high sensitivity (3.85 mA mM-1 cm-2), wide linear range (5 μM to 3.325 mM), and low detection limit of 0.5 μM.

Published

2019

174. Preparation of Composite Insulating Paper With Decreased Permittivity, Good Mechanical and Thermal Properties by Kevlar/Nano Cellulose Fibrils/Softwood Pulp Hybrid

Author

Ruijin Liao, Yang Mo, Tiantian Zou, Wei Hou, and Lijun Yang

Subjects

Permittivity, Softwood, Materials science, General Computer Science, Composite number, Electrical insulation paper, Relative permittivity, Kevlar pulp, 02 engineering and technology, Kevlar, engineering.material, mechanical properties, 010402 general chemistry, 01 natural sciences, composite insulating paper, stomatognathic system, Ultimate tensile strength, General Materials Science, Composite material, Pulp (paper), General Engineering, 021001 nanoscience & nanotechnology, NCF, low dielectric loss, 0104 chemical sciences, engineering, lcsh:Electrical engineering. Electronics. Nuclear engineering, low permittivity, 0210 nano-technology, lcsh:TK1-9971

Abstract

Kevlar pulp treated with low-temperature plasma and nano cellulose fibrils (NCFs) have been introduced as reinforcements in the preparation for composite insulating paper with low relative permittivity, dielectric loss, good mechanical properties, and thermal stability. More polar groups of Kevlar fibers could be exposed after plasma treatment. Results showed that the relative permittivity of the composite paper containing 20% Kevlar pulp, 10% NCF, and 70% softwood pulp is decreased by 29.6% and the dielectric loss is decreased by 43.2% at 50 Hz, 25°, compared with the conventional paper formed by pure softwood pulp. The change was due to the introduction of Kevlar pulp with intrinsic low dielectric constant and loss, which decreases the whole polarizability of the paper. The mechanical properties of the composite paper became worse after introducing 20% Kevlar pulp. About 10% NCF can work as a mechanical reinforcement to compensate for the tensile and Yang's modulus loss. Scanning electron microscopy results showed that NCF could fill the void defects and improve the interface bonding of the fibers to enhance the paper mechanical properties. The composite paper also had better insulating and thermal properties than the conventional paper. It has been concluded that the Kevlar pulp/NCF/softwood pulp composite paper has the potential to replace the pure softwood paper for the application of high-voltage ac transformer insulation.

Published

2019

175. Preparation of superhydrophobic composite paper mulching film

Author

Yong Zhang, Qianrui Kang, Anling Li, Shuaiyang Ren, Fengwei Zhang, and Qiang He

Subjects

Scanning electron microscope, General Chemical Engineering, Composite number, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Durability, Corrosion, Contact angle, Coating, Surface roughness, Composite material, Superhydrophobic, QD1-999, Coated paper, Chemistry, General Chemistry, 021001 nanoscience & nanotechnology, Mechanical stability, 0104 chemical sciences, Self cleaning, engineering, 0210 nano-technology, Chemical stability, Mulch

Abstract

To study the influence of different concentrations of zinc oxide (ZnO)/silicon dioxide (SiO2) composite coating on hydrophobic property and mechanical stability of paper mulch film, three kinds of ZnO/SiO2 composite coating paper mulch films (2%, 4%, 6%) with different coating substance contents were prepared by brush coating method. Through particle size analysis, contact angle, rolling angle and mechanical stability test, combined with scanning electron microscope, three-dimensional morphology and roughness measuring instrument, the optimal concentration of ZnO/SiO2 composite coated paper mulch film was screened out. Through acid-base salt corrosion test, silver mirror reaction and surface self-cleaning, the optimal concentration of composite coated paper mulch film was compared with the original paper mulch film to prove its excellent chemical stability and hydrophobicity. The results show that the paper mulch film with 4% coating material has excellent hydrophobicity and mechanical stability, can effectively reduce the surface roughness of paper mulch film, and has remarkable effects in resisting acid, alkali and salt and self-cleaning.

Published

2021

176. Experimental investigation and process optimization of the ultrasonic welding applied to papers

Author

Barthélémy Harthong, J. Viguié, M. Terrien, Robert Peyroux, Didier Imbault, Quentin Charlier, J.‐B. Toni, Laboratoire sols, solides, structures - risques [Grenoble] (3SR), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), Mécanique et Couplages Multiphysiques des Milieux Hétérogènes (CoMHet), Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Centre Technique du Papier (CTP), Laboratoire Génie des procédés papetiers (LGP2), Centre National de la Recherche Scientifique (CNRS)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), and Université Grenoble Alpes (UGA)-Université Grenoble Alpes (UGA)

Subjects

010302 applied physics, instrumentation, Ultrasonic welding, Materials science, Mechanical Engineering, paper, paperboard, Mechanical engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, [SPI.MAT]Engineering Sciences [physics]/Materials, experimentation, Mechanics of Materials, process optimization, 0103 physical sciences, [SPI.MECA.MEMA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph], General Materials Science, Process optimization, 0210 nano-technology

Abstract

International audience; Ultrasonic welding is a serious candidate in the development of methods to assemble papers and paperboards without using additional substances. However, the ultrasonic welding of papers remains a technological challenge considering the low weldability of lignocellulosic materials. This study aims to investigate on the ultrasonic welding process applied to papers in order to identify the processing conditions which favor the formation of strong welded joints. To reach such purpose, an experimental strategy was developed by combining the characterization of welded materials and the monitoring of process parameters. Experimentations were performed using a reference paper displaying a good weldability to specifically highlight the contribution of process parameters. Results indicate that the process is highly sensitive to vibration amplitude, power supplied by the high frequency generator, and sample thickness. Power seems to be a reliable indicator of the severity of the process. A strong decrease in the strength of the welded joints is observed when working with low thicknesses. It seems that the layers coated on top of papers are the main part of the material contributing in the development of adhesion at the welding joint. Overall, instrumenting the device has led to a better understanding of the ultrasonic welding of papers.

Published

2021

177. New Result on the Feedback Capacity of the Action-Dependent Dirty Paper Wiretap Channel

Author

Guangfen Xie and Bin Dai

Subjects

Computer science, Science, QC1-999, Gaussian, 0211 other engineering and technologies, General Physics and Astronomy, 02 engineering and technology, Astrophysics, Interference (wave propagation), Upper and lower bounds, Article, symbols.namesake, action encoder, wiretap channel, Control theory, Secrecy, 0202 electrical engineering, electronic engineering, information engineering, 021110 strategic, defence & security studies, Physics, Transmitter, 020206 networking & telecommunications, channel feedback, Action (physics), QB460-466, symbols, intelligent reflecting surfaces, State (computer science), dirty paper channel, Communication channel

Abstract

The Gaussian wiretap channel with noncausal state interference available at the transmitter, which is also called the dirty paper wiretap channel (DP-WTC), has been extensively studied in the literature. Recently, it has been shown that taking actions on the corrupted state interference of the DP-WTC (also called the action-dependent DP-WTC) helps to increase the secrecy capacity of the DP-WTC. Subsequently, it has been shown that channel feedback further increases the secrecy capacity of the action-dependent DP-WTC (AD-DP-WTC), and a sub-optimal feedback scheme is proposed for this feedback model. In this paper, a two-step hybrid scheme and a corresponding new lower bound on the secrecy capacity of the AD-DP-WTC with noiseless feedback are proposed. The proposed new lower bound is shown to be optimal (achieving the secrecy capacity) and tighter than the existing one in the literature for some cases, and the results of this paper are further explained via numerical examples.

Published

2021

178. Paper Doped with Polyacrylonitrile Fibres Modified with 10,12–Pentacosadiynoic Acid

Author

Konrad Olejnik, Elżbieta Sąsiadek, and Marek Kozicki

Subjects

Technology, Materials science, modified polyacrylonitrile fibres, 02 engineering and technology, Radiation, 010402 general chemistry, medicine.disease_cause, 01 natural sciences, Article, security system, ultraviolet radiation sensor, chemistry.chemical_compound, functionalized cellulosic material, Spectrophotometry, medicine, General Materials Science, Irradiation, Cellulose, Microscopy, QC120-168.85, medicine.diagnostic_test, paper, Doping, QH201-278.5, Polyacrylonitrile, security fibres, 021001 nanoscience & nanotechnology, Engineering (General). Civil engineering (General), 0104 chemical sciences, TK1-9971, Wavelength, Chemical engineering, chemistry, Descriptive and experimental mechanics, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, 0210 nano-technology, Ultraviolet

Abstract

This work reports a modification of a fibrous cellulose material (paper) by the addition of polyacrylonitrile (PAN) fibres doped with 10,12–pentacosadiynoic acid (PDA). The fibres are sensitive to ultraviolet (UV) light. When the paper containing PAN–PDA is irradiated with UV light it changes colour to blue as a consequence of interaction of the light with PDA. The colour intensity is related to the absorbed dose, content of PAN–PDA fibres in the paper and the wavelength of UV radiation. The features of the paper are summarised after reflectance spectrophotometry and scanning microscopy analyses. All the properties of the modified paper were tested in accordance with adequate ISO standards. Moreover, a unique method for assessing the unevenness of the paper surface and the quality of printing was proposed by using a Python script (RGBreader) for the analysis of RGB colour channels. The modification applied to the paper can serve as a paper security system. The modified paper can act also as a UV radiation indicator.

Published

2021

179. Making Biodegradable Seedling Pots from Textile and Paper Waste—Part B: Development and Evaluation of Seedling Pots

Author

Jeanger P. Juanga-Labayen and Qiuyan Yuan

Subjects

Health, Toxicology and Mutagenesis, biodegradable seedling pot, 02 engineering and technology, 010501 environmental sciences, textile waste, 7. Clean energy, 01 natural sciences, cotton, Article, Biogas, Ultimate tensile strength, 0105 earth and related environmental sciences, Mathematics, biology, Textiles, paper waste, Public Health, Environmental and Occupational Health, cardboard, Biodegradation, 021001 nanoscience & nanotechnology, biology.organism_classification, Anaerobic digestion, Horticulture, Compressive strength, Seedlings, Germination, Seedling, visual_art, Seeds, visual_art.visual_art_medium, Medicine, 0210 nano-technology, Methane

Abstract

This study evaluates the efficacy of using textile waste blended with paper waste to form biodegradable seedling pots. A bio-composite blend of cotton (20% cotton, 40% newspaper, and 40% corrugated cardboard) and polycotton (20% polycotton, 40% newspaper, and 40% corrugated cardboard) with an optimum strength was formed into seedling pots. The appreciated seedling pots (untreated blends of cotton and polycotton) were compared with the commercial pots (cardboard seed starter pot and Jiffy pot) in terms of mechanical properties (tensile strength and compressive strength), biodegradability (soil burial test and anaerobic digestion), and seed germination. The untreated blends of cotton and polycotton pots demonstrated a comparable optimum strength, while the Jiffy pot and cardboard seed starter pot obtained the least tensile and compressive strengths, respectively. The anaerobic biodegradability assay suggests that the cotton blend pot, polycotton blend pot, and cardboard seed starter pot can degrade anaerobically because of high biogas and methane generation potential. A 100% seed germination was observed from the four seedling pots tested. Thus, the results demonstrate the efficacy of utilizing textile waste and paper waste to develop seedling pots with desirable strength and biodegradability compared to the commercial pots.

Published

2021

180. Fabrication of Paper Sheets Coatings Based on Chitosan/Bacterial Nanocellulose/ZnO with Enhanced Antibacterial and Mechanical Properties

Author

Rafał Rakoczy, Magdalena Onyszko, Ewa Mijowska, Adrian Augustyniak, Maciej Konopacki, and Joanna Jabłońska

Subjects

Nanofibers, Nanoparticle, Metal Nanoparticles, biopolymers, 02 engineering and technology, 01 natural sciences, Nanocellulose, Nanocomposites, Chitosan, chemistry.chemical_compound, Anti-Infective Agents, X-Ray Diffraction, Product Packaging, Biology (General), automotive_engineering, Spectroscopy, Antibacterial Response, General Medicine, 021001 nanoscience & nanotechnology, Computer Science Applications, Chemistry, Bacterial cellulose, ddc:540, Zinc Oxide, 0210 nano-technology, Materials science, Fabrication, Surface Properties, QH301-705.5, 010402 general chemistry, Catalysis, Article, Inorganic Chemistry, Microscopy, Electron, Transmission, Tensile Strength, Ultimate tensile strength, paper packaging, Escherichia coli, Physical and Theoretical Chemistry, Cellulose, Molecular Biology, QD1-999, antimicrobial activity, Organic Chemistry, 0104 chemical sciences, chemistry, Chemical engineering, Nanofiber, Mechanical Tests, Microscopy, Electron, Scanning, nanoparticles

Abstract

Here, we designed the composition of the coating of the paper sheets composed of chitosan, bacterial cellulose (nanofibres), and ZnO with boosted antibacterial and mechanical activity. We investigated the compositions with ZnO exhibiting two different sizes/shapes: (1) rods and (2) irregular sphere-like particles. The proposed processing of bacterial cellulose resulted in the formation of nanofibers. Antimicrobial behavior was tested using E. coli ATCC® 25922™ following ASTM E2149-13a standard. Mechanical properties of the paper sheets were measured by comparison of tearing resistance, tensile strength, and bursting strength according to ISO 5270 standard. The increased antibacterial response is assigned to the combination of chitosan and ZnO (independently of its shape and size), while the boosted mechanical behavior is due to bacterial cellulose nanofibers. Therefore, the proposed composition is an interesting multifunctional mixture for coatings in food packaging applications.

Published

2021

181. Active Barrier Coating for Packaging Paper with Controlled Release of Sunflower Oils

Author

Pieter Samyn and SAMYN, Pieter

Subjects

food.ingredient, Materials science, packaging, Active packaging, Pharmaceutical Science, Nanoparticle, Organic chemistry, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, release, Article, Analytical Chemistry, Contact angle, food, QD241-441, Coating, Drug Discovery, Sunflower Oil, Physical and Theoretical Chemistry, oleophobicity, hydrophobicity, Sunflower oil, paper, Food Packaging, Substrate (chemistry), Water, coating, 021001 nanoscience & nanotechnology, Controlled release, 0104 chemical sciences, Vegetable oil, Chemical engineering, vegetable oil, Chemistry (miscellaneous), Delayed-Action Preparations, engineering, Molecular Medicine, Nanoparticles, barrier, encapsulation, 0210 nano-technology

Abstract

The use of paper as a sustainable packaging material is favored, but it lacks sufficient barrier properties in terms of water repellence and oil resistance. Novel approaches consider active packaging materials or coatings with controlled release providing additional functionality for delivery of specific components to the surface. In this study, the development of a waterborne coating with organic nanoparticles and encapsulated sunflower oils is presented as a system for thermal release of the oil and on-demand tuning of the final barrier properties of the paper substrate. After synthesis of the nanoparticles, it seems that the encapsulation of various grades of sunflower oil (i.e., either poly-unsaturated or mono-unsaturated) strongly affects the encapsulation efficiency and thermal release profiles. The water contact angles are controlled by the oil release and chemical surface composition of the coating upon thermal heating. The oil resistance of the paper improves as a more continuous oil film is formed during thermal release. In particular, the chemical surface composition of the paper coatings is detailed by means of micro-Raman spectroscopy and surface imaging, which provide an analytical quantification tool to evaluate surface coverage, oil delivery, and variations in organic coating moieties. This research was funded through the Robert-Bosch Foundation in the frame of the Juniorprofessorshhip program, project ‘FORESNAB’ (2011–2016) for acquiring Raman spectroscope and TM3000 microscope. R. Thomann (University of Freiburg) is acknowledged for TEM measurements, and D. Stanssens (Topchim N.V.) is acknowledged for materials supply.

Published

2021

182. A Hybrid Personalized Scientific Paper Recommendation Approach Integrating Public Contextual Metadata

Author

Saravanakumar Gurusamy, Md. Abdul Based, Khalid Haruna, Rodina Ahmad, Mominul Ahsan, Julfikar Hiader, and Nazmus Sakib

Subjects

Context model, Information retrieval, General Computer Science, Computer science, Scientific paper recommendation, Feature extraction, General Engineering, 02 engineering and technology, Recommender system, public contextual metadata, TK1-9971, Metadata, Order (exchange), 020204 information systems, collaborative filtering, 0202 electrical engineering, electronic engineering, information engineering, Collaborative filtering, Mean reciprocal rank, content-based filtering, 020201 artificial intelligence & image processing, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, Baseline (configuration management), hybrid approach

Abstract

Rapid increase in scholarly publications on the web has posed a new challenge to the researchers in finding highly relevant and important research articles associated with a particular area of interest. Even a highly relevant paper is sometimes missed especially for novice researchers due to lack of knowledge and experience in finding and accessing the most suitable articles. Scholarly recommender system is a very appropriate tool for this purpose that can enable researchers to locate relevant publications easily and quickly. However, the main downside of the existing approaches is that their effectiveness is dependent on priori user profiles and thus, they cannot recommend papers to the new users. Furthermore, the system uses both public and non-public metadata and therefore, the system is unable to find similarities between papers efficiently due to copyright restrictions. Considering the above challenges, in this research work, a novel hybrid approach is proposed that separately combines a Content Based Filtering (CBF) recommender module and a Collaborative Filtering (CF) recommender module. Unlike previous CBF and CF approaches, public contextual metadata and paper-citation relationship information are effectively incorporated into these two approaches separately to enhance the recommendation accuracy. In order to verify the effectiveness of the proposed approach, publicly available datasets were employed. Experimental results demonstrate that the proposed approach outperforms the baseline approaches in terms of standard metrics (precision, recall, F1-measure, mean average precision, and mean reciprocal rank), indicating that the proposed approach is more efficient in recommending scholarly publications.

Published

2021

183. Cellulose nanofibrils manufactured by various methods with application as paper strength additives

Author

Jinsong Zeng, Wenhua Gao, Yu Wang, Zhanting Zeng, Xiaojun Wang, Bin Wang, and Zheng Cheng

Subjects

Materials science, Scanning electron microscope, Science, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Article, Crystallinity, chemistry.chemical_compound, Nanoscience and technology, Ultimate tensile strength, Fourier transform infrared spectroscopy, Cellulose, Composite material, Multidisciplinary, Pulp (paper), 021001 nanoscience & nanotechnology, Folding endurance, 0104 chemical sciences, Grinding, chemistry, engineering, Medicine, 0210 nano-technology

Abstract

Recycled paper and some hardwood paper often display poorer mechanical properties, which hinder its practical applications and need to be addressed. In this work, cellulose nanofibrils (CNFs) obtained by a combined process of enzymatic hydrolysis and grinding (EG-CNFs), grinding and microfluidization (GH-CNFs) or TEMPO-mediated oxidation and grinding (TE-CNFs) were characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). Moreover, CNFs were made into films on which some characterizations including X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), and UV–Vis transmittance spectroscopy were implemented. Results showed that CNF fibrillation was promoted as times of passes increased in microfluidization, and CNFs pretreated by enzyme possessed shorter length. Crystallinity of CNFs was related to CNF manufacturing methods, while CNF films’ transparency was correlated to CNF diameter distributions. Moreover, CNFs were applied with different dosages on recycled and hardwood paper. Lengths of CNFs, strength of CNF network, and pulp properties were critical factors affecting the mechanical strength of CNFs-enhanced paper. GH-CNFs showed better strengthened effect on tensile strength of paper than TE-CNFs and EG-CNFs. The best overall improvement was achieved at GH-CNF10 dosage of 5.0 wt% on hardwood paper. The increment of tensile index, burst index, and folding endurance were 108.32%, 104.65%, and 600%, respectively. This work aims to find out the relationship between production methods and morphologies of CNFs and how the morphological characteristics of CNFs affecting the mechanical performance of paper when they are added as strength additives.

Published

2021

184. Graphene Oxide Nanoparticles Modified Paper Electrode as a Biosensing Platform for Detection of the htrA Gene of O. tsutsugamushi

Author

Deepak Kala, Ankur Kaushal, Sergei V. Trukhanov, Alex Trukhanov, Shagun Gupta, Vivek Verma, Tarun Kumar Sharma, and Atul Thakur

Subjects

Materials science, Oxide, DNA sensor, TP1-1185, 02 engineering and technology, Biosensing Techniques, htrA gene, 01 natural sciences, Biochemistry, Analytical Chemistry, law.invention, chemistry.chemical_compound, law, Electrical and Electronic Engineering, Instrumentation, Electrodes, scrub typhus, Graphene, Chemical technology, Communication, 010401 analytical chemistry, electrochemical, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Amperometry, 0104 chemical sciences, Dielectric spectroscopy, chemistry, Electrode, screen printed paper electrode, Nanoparticles, Graphite, Differential pulse voltammetry, Cyclic voltammetry, 0210 nano-technology, Biosensor, Nuclear chemistry

Abstract

The unique structural and electrochemical properties of graphene oxide (GO) make it an ideal material for the fabrication of biosensing devices. Therefore, in the present study, graphene oxide nanoparticles modified paper electrodes were used as a low-cost matrix for the development of an amperometric DNA sensor. The graphene oxide was synthesized using the modified hummers method and drop cast on a screen-printed paper electrode (SPPE) to enhance its electrochemical properties. Further, the GO/SPPE electrode was modified with a 5′NH2 labeled ssDNA probe specific to the htrA gene of Orientia tsutsugamushi using carbodiimide cross-linking chemistry. The synthesized GO was characterized using UV-Vis, FTIR, and XRD. The layer-by-layer modification of the paper electrode was monitored via FE-SEM, cyclic voltammetry, and electrochemical impedance spectroscopy (EIS). The sensor response after hybridization with single-stranded genomic DNA (ssGDNA) of O. tsutsugamushi was recorded using differential pulse voltammetry (DPV). Methylene blue (1 mM in PBS buffer, pH 7.2) was used as a hybridization indicator and [Fe(CN)6]−3/−4 (2.5 mM in PBS buffer, pH 7.2) as a redox probe during electrochemical measurements. The developed DNA sensor shows excellent sensitivity (1228.4 µA/cm2/ng) and LOD (20 pg/µL) for detection of O. tsutsugamushi GDNA using differential pulse voltammetry (DPV).

Published

2021

185. A co‐training ‐based approach for the hierarchical multi‐label classification of research papers

Author

Khalil Drira, Hatem Bellaaj, Abir Masmoudi, Mohamed Jmaiel, Université de Sfax - University of Sfax, Équipe Services et Architectures pour Réseaux Avancés (LAAS-SARA), Laboratoire d'analyse et d'architecture des systèmes (LAAS), Université Toulouse - Jean Jaurès (UT2J)-Université Toulouse 1 Capitole (UT1), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Toulouse - Jean Jaurès (UT2J)-Université Toulouse 1 Capitole (UT1), Université Fédérale Toulouse Midi-Pyrénées, Unité de Recherche en développement et contrôle d'applications distribuées (REDCAD), École Nationale d'Ingénieurs de Sfax | National School of Engineers of Sfax (ENIS), Université Toulouse Capitole (UT Capitole), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National des Sciences Appliquées - Toulouse (INSA Toulouse), Institut National des Sciences Appliquées (INSA)-Université de Toulouse (UT)-Institut National des Sciences Appliquées (INSA)-Université Toulouse - Jean Jaurès (UT2J), Université de Toulouse (UT)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université Toulouse Capitole (UT Capitole), and Université de Toulouse (UT)

Subjects

0209 industrial biotechnology, Computer science, 02 engineering and technology, Semi-supervised learning, Imbalanced data, [INFO.INFO-SE]Computer Science [cs]/Software Engineering [cs.SE], Hierarchical Multi-label classication, Machine learning, computer.software_genre, Theoretical Computer Science, Set (abstract data type), Consistency (database systems), [INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI], 020901 industrial engineering & automation, Cardinality, Co-training, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Multi-label classification, Hierarchy (mathematics), business.industry, [INFO.INFO-WB]Computer Science [cs]/Web, Research papers classication, Bibliographic coupling, ComputingMethodologies_PATTERNRECOGNITION, Computational Theory and Mathematics, Control and Systems Engineering, 020201 artificial intelligence & image processing, [INFO.INFO-ET]Computer Science [cs]/Emerging Technologies [cs.ET], Artificial intelligence, business, computer

Abstract

International audience; This paper focuses on the problem of the hierarchical multi‐label classification of research papers, which is the task of assigning the set of relevant labels for a paper from a hierarchy, using reduced amounts of labelled training data. Specifically, we study leveraging unlabelled data, which are usually plentiful and easy to collect, in addition to the few available labelled ones in a semi‐supervised learning framework for achieving better performance results. Thus, in this paper, we propose a semi‐supervised approach for the hierarchical multi‐label classification task of research papers based on the well‐known Co‐training algorithm, which exploit content and bibliographic coupling information as two distinct papers' views. In our approach, two hierarchical multi‐label classifiers, are learnt on different views of the labelled data, and iteratively select their most confident unlabelled samples, which are further added to the labelled set. The success of our suggested Co‐training‐based approach lies in two main components. The first is the use of two suggested selection criteria (i.e., Maximum Agreement and Labels Cardinality Consistency) that enforce selecting confident unlabelled samples. The second is the appliance of an oversampling method that rebalances the labels distribution of the initial labelled set, which reduces the reinforcement of the label imbalance issue during the Co‐training learning. The proposed approach is evaluated using a collection of scientific papers extracted from the ACM digital library. Performed experiments show the effectiveness of our approach with regards to several baseline methods.

Published

2021

186. Determination of Cellulose Degree of Polymerization in Historical Papers with High Lignin Content

Author

Ida Kraševec, Jasna Malešič, and Irena Kralj Cigić

Subjects

weight average molecular mass, Polymers and Plastics, Ion chromatography, Size-exclusion chromatography, Sodium chlorite, historical papers, Organic chemistry, lignin, 02 engineering and technology, Degree of polymerization, 010402 general chemistry, Kappa number, 01 natural sciences, Article, klorit/ocetna kislina, viscometry, chemistry.chemical_compound, QD241-441, celuloza, Lignin, average degree of polymerization, povprečna stopnja polimerizacije, Cellulose, historični papirji, chlorite/acetic acid, udc:676.014.82, Chromatography, velikostna izključitvena kromatografija, Depolymerization, Chemistry, technology, industry, and agriculture, General Chemistry, 021001 nanoscience & nanotechnology, cellulose, 0104 chemical sciences, size-exclusion chromatography, masno povprečje molekulske mase, viskozimetrija, 0210 nano-technology

Abstract

Determination of cellulose degree of polymerization (DP) is one of the most commonly used methods in paper degradation studies, performed either by a standardized method using viscometry (as average degree of polymerization (DPv)) or size-exclusion chromatography (SEC) (as weight average molecular mass (Mw)). Due to the insolubility of papers with high lignin content in cupriethylenediamine (CED), such as groundwood papers, viscometric determination is not possible, therefore, pretreatment is required to allow subsequent dissolution of the papers. In this study, the pretreatment of historical papers containing groundwood with sodium chlorite in acetic acid was investigated, which enables dissolution of the paper samples in CED and determination of the cellulose average degree of polymerization by viscometry (DPv). Kappa number was determined to estimate the lignin content in the papers. The suitability of SEC UV-VIS analysis for determination of Mw in papers with high lignin content had been verified before it was used as a comparative method for viscometry. Using SEC, changes in the weight average molecular mass (Mw) of cellulose tricarbanilate (CTC) derivative during delignification were evaluated. The results indicate that no significant depolymerization occurred in the selected samples under the studied delignification conditions, which was additionally confirmed with determination of monosaccharides by ion chromatography. The results of the Mw determinations by SEC and DPv by viscometry are in good correlation, justifying the use of viscometry after chlorite/acetic acid pretreatment to determine the cellulose average degree of polymerization in historical papers with high lignin content.

Published

2021

187. Microfluidic Paper-based Analytical Devices (μPADs): Miniaturization and Enzyme Storage Studies

Author

Grenalynn C. Ilacas and Frank A. Gomez

Subjects

Paper, Microfluidics, Model system, 02 engineering and technology, 01 natural sciences, Analytical Chemistry, Glucose Oxidase, Enzyme Stability, Miniaturization, Glucose oxidase, Horseradish Peroxidase, Wax, Chromatography, biology, Chemistry, 010401 analytical chemistry, Color intensity, Paper based, Microfluidic Analytical Techniques, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Glucose, visual_art, Acetylcholinesterase, visual_art.visual_art_medium, biology.protein, 0210 nano-technology

Abstract

This paper describes the design and development of miniaturized microfluidic paper-based analytical devices (μPADs) for biological assays and enzyme storage instruments. Here, a glucose assay utilizing glucose oxidase (GOx), horseradish peroxidase (HRP), and potassium iodide (KI) is used as the model system. The efficacy of the miniaturized devices is further examined by assessing the activity of acetylcholinesterase (AChE). Two types of μPADs were developed: one, "strip" chips of detection zones of area 0.5, 0.1 cm2 and, two, "grid" chips of detection zone 0.05 cm2. The devices are easily fabricated via a wax printing process whereby lines of wax are deposited onto chromatographic paper and heated to create rows of hydrophobic barriers. The "strip" chips were subjected to three different temperature environments (-20, 0, and 20°C) over 30 days and glucose assays conducted at intermittent times yielding a correlation between corrected average inverse yellow intensity, days, and glucose concentration. Calculated and experimentally derived color intensity values for 1, 4, and 9 mM glucose concentrations after a 7-day storage study showed a good correlation (0.89 - 15.76% error). Both types of μPADs are effective platforms as potential point-of-care (POC) diagnostic devices and display minimal enzyme denaturation. μPADs of this size show promise as alternative devices for resource-limited regions and especially those areas where materials and instrumentation are not always available.

Published

2018

188. Perspectives on Membrane Bioreactor Potential for Treatment of Pulp and Paper Industry Wastewater: A Critical Review

Author

Gholamreza Nabi Bidhendi, Mohammad Reza Mosaddeghi, Ghasem Najafpour Darzi, Farshid Pajoum Shariati, Morteza Hosseini, and Ali Izadi

Subjects

Fouling, Pulp (paper), Membrane fouling, 02 engineering and technology, 010501 environmental sciences, engineering.material, 021001 nanoscience & nanotechnology, Membrane bioreactor, Pulp and paper industry, 01 natural sciences, Industrial wastewater treatment, Wastewater, engineering, Environmental science, Sewage treatment, 0210 nano-technology, Effluent, 0105 earth and related environmental sciences, Biotechnology

Abstract

The pulp and paper wastewater contains various organic and inorganic compounds in considerable amounts. Membrane bioreactor (MBR) technology has been used extensively for various industrial wastewater treatments due to its ability to produce appropriate effluent according to water quality regulations. Pulp and paper wastewater can be successfully treated by MBR in different conditions according to the wastewater and MBR characteristics. However, a major drawback in the use of MBR is membrane fouling, which leads to the reduction of effluent permeate flux. Fouling factors need to be considered because they are the major problems affecting the MBR performance. Besides, the performance of MBR can be increased by wastewater pretreatment methods and addition of a fouling reducer. In this paper, the application of aerobic and anaerobic MBR for pulp and paper wastewater treatment and membrane fouling has been reviewed. It has been found that the advantages of MBR over conventional biological treatment processes have made this technology popular for pulp and paper wastewater treatment.

Published

2018

189. Carbon dynamics of paper, engineered wood products and bamboo in landfills: evidence from reactor studies

Author

Amrit Kathuria, Fabiano Ximenes, Annette Cowie, and Morton A. Barlaz

Subjects

Paper, Bamboo, Municipal solid waste, 020209 energy, Greenhouse gas inventory, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Methane, chemistry.chemical_compound, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), lcsh:Environmental sciences, 0105 earth and related environmental sciences, lcsh:GE1-350, Global and Planetary Change, Research, cardboard, Decay, Pulp and paper industry, Carbon, chemistry, Engineered wood products, Greenhouse gas, visual_art, visual_art.visual_art_medium, General Earth and Planetary Sciences, Engineered wood, Environmental science, Landfill

Abstract

Background There has been growing interest in the development of waste-specific decay factors for estimation of greenhouse gas emissions from landfills in national greenhouse gas inventories. Although engineered wood products (EWPs) and paper represent a substantial component of the solid waste stream, there is limited information available on their carbon dynamics in landfills. The objective of this study was to determine the extent of carbon loss for EWPs and paper products commonly used in Australia. Experiments were conducted under laboratory conditions designed to simulate optimal anaerobic biodegradation in a landfill. Results Methane generation rates over incubations of 307–677 days ranged from zero for medium-density fibreboard (MDF) to 326 mL CH4 g−1 for copy paper. Carbon losses for particleboard and MDF ranged from 0.7 to 1.6%, consistent with previous estimates. Carbon loss for the exterior wall panel product (2.8%) was consistent with the expected value for blackbutt, the main wood type used in its manufacture. Carbon loss for bamboo (11.4%) was significantly higher than for EWPs. Carbon losses for the three types of copy paper tested ranged from 72.4 to 82.5%, and were significantly higher than for cardboard (27.3–43.8%). Cardboard that had been buried in landfill for 20 years had a carbon loss of 27.3%—indicating that environmental conditions in the landfill did not support complete decomposition of the available carbon. Thus carbon losses for paper products as measured in bioreactors clearly overestimate those in actual landfills. Carbon losses, as estimated by gas generation, were on average lower than those derived by mass balance. The low carbon loss for particleboard and MDF is consistent with carbon loss for Australian wood types described in previous studies. A factor for carbon loss for combined EWPs and wood in landfills in Australia of 1.3% and for paper of 48% is proposed. Conclusions The new suggested combined decay factor for wood and EWPs represents a significant reduction from the current factor used in the Australian greenhouse gas inventory; whereas the suggested decay factor for paper is similar to the current decay factor. Our results improve current understanding of the carbon dynamics of harvested wood products, and allow more refined estimates of methane emissions from landfills. Electronic supplementary material The online version of this article (10.1186/s13021-018-0115-3) contains supplementary material, which is available to authorized users.

Published

2018

190. Removal of colour from alkali extracted wastewater of Pulp and paper mill using fly ash as adsorbent

Author

Anju Malik, Shaveta Kakkar, and Sanjeev Gupta

Subjects

Municipal solid waste, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, engineering.material, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Adsorption, medicine, 0105 earth and related environmental sciences, General Environmental Science, 021110 strategic, defence & security studies, General Immunology and Microbiology, Chemistry, business.industry, Pulp (paper), Paper mill, Pulp and paper industry, Wastewater, Fly ash, engineering, Sewage treatment, General Agricultural and Biological Sciences, business, Activated carbon, medicine.drug

Abstract

The study aims to explore the beneficial use of fly ash and its effectiveness as low cost adsorbent for wastewater treatment of Pulp and paper industry. A comparative study was also carried out for the better colour reduction of industrial effluent using fly ash and commercial activated carbon. Batch mode adsorption experiments were carried out to optimize the different experimental conditions like adsorbent dose, contact time, rotation per minute (RPM) and pH. The treatment showed that the removal efficiency of colour increased to 86 % with the increase in adsorbent dose (0.5 – 10 g), time (30–240 min), RPM (50 - 150) and pH (4–12) of pulp and paper industry wastewater. The removal efficiency of activated carbon was found to be 100 % using 1 g adsorbent dose of commercial grade activated carbon. The Scan Electron Microscope (SEM) results of the fly ash showed that the particles looked like somewhat spherical large particles. It was concluded that though the activated carbon was very efficient adsorbent in comparison to fly ash, the better solution for disposal of solid waste such as fly ash can be good a substitute as the adsorbent for the colour reduction of the paper mill wastewater.

Published

2018

191. Continuous and sustainable cellulose filaments from ionic liquid dissolved paper sludge nanofibres

Author

Chenchen Zhu, Stephen J. Eichhorn, Robert M. Richardson, Cynthia Adu, and Mark Jolly

Subjects

Textile industry, Spinning, 020209 energy, Strategy and Management, 02 engineering and technology, Ionic liquid, Industrial and Manufacturing Engineering, Fibre, chemistry.chemical_compound, Paper sludge, Hazardous waste, 0202 electrical engineering, electronic engineering, information engineering, Viscose, Cellulose, 0505 law, General Environmental Science, Renewable Energy, Sustainability and the Environment, business.industry, 05 social sciences, Fossil fuel, Regenerated cellulose, Paper mill, Pulp and paper industry, chemistry, Cellulosic ethanol, 050501 criminology, Environmental science, business

Abstract

The textile industry is resource-intensive, which has a significant impact on global emissions and waste pollution. To meet the demand of textiles over a third of fibres used in manufacturing are sourced from fossil fuels. As the global demand for textiles continues to grow, manufacturers are having to seek innovative approaches to providing sustainable and regenerative cellulose fibres. However, the latest climate change pressures on the textile industry have uncovered grave environmental issues associated with traditional regenerative cellulose production, such as the viscose manufacturing process. The viscose process requires intensive use of hazardous chemicals which leads to water pollution and ecotoxicity. In addition, if forestry products are unsustainably sourced for this process, this can lead to resource scarcity and deforestation. To provide a holistic solution for mitigating these challenges this study uses the by-products of paper manufacturing dissolved in an ionic liquid to produce regenerated cellulose filaments. Paper mill sludge (PMS) is a cellulosic by-product typically used on animal bedding and land spreading. The material has been dissolved in an ionic liquid - 1-ethyl-3-methylimidazolium diethyl phosphate - with the aid of a co-solvent dimethyl sulfoxide (DMSO) - and spun into continuous filaments for textile production. The mechanical properties of paper sludge filaments are found to be competitive with commercial viscose, which is promising for their drop-in replacement. It is also demonstrated that by increasing the concentration of the PMS from 9% to 12.4%, an improvement of the filament properties can be achieved; an increase in modulus from ∼19 GPa to ∼26 GPa and strength from ∼223 MPa to ∼282 MPa. These values are shown to be competitive with other commercial, less sustainable, regenerated cellulose fibres.

Published

2021

192. Paper ageing : the effect of paper chemical composition on hydrolysis and oxidation

Author

Dominika Pawcenis, Kamila Przybysz, Joanna Paczkowska, Edyta Małachowska, and Jacek Dańczak

Subjects

Polymers and Plastics, Cellulose degradation, oxidation, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Article, lcsh:QD241-441, Hydrolysis, chemistry.chemical_compound, lcsh:Organic chemistry, cellulose degradation, Lignin, Cellulose, Chemical composition, crystallinity, paper ageing, Chemistry, food and beverages, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemical engineering, hydrolysis, Ageing, cellulose depolymerisation, Degradation (geology), 0210 nano-technology, Atmospheric humidity

Abstract

The degradation of cellulose is an important factor influencing its mechanical, optical, physical, and chemical properties and, hence, the lifetime of paper in libraries and archival collections. Regardless of the complexity of the paper material, the main chemical pathways for its degradation are hydrolysis and oxidation. This study presents an overview of the analytical techniques employed in the evaluation of the hydrolysis and oxidation processes, these techniques include size-exclusion chromatography, Fourier-transform infrared and ultraviolet–visible spectroscopy, and X-ray diffraction. This paper aims to determine the extent to which these instrumental methods are useful for studying the aforementioned processes and for which lignin contents. It also highlights how atmospheric humidity could affect the cellulose structure in paper containing lignin. It was found that humidity causes significant changes in the cellulose chain lengths and that a high lignin content in paper could suppress some cellulose degradation pathways. This knowledge can be applied to developing strategies and selective chemical treatments preventing the consequences of paper ageing.

Published

2021

193. A Paper-Based Potentiometric Platform for Determination of Water Hardness

Author

Mohammed L. Bouhoun, Pascal Blondeau, Yamina Louafi, and Francisco J. Andrade

Subjects

Materials science, Potentiometric titration, 02 engineering and technology, QD415-436, water hardness, 01 natural sciences, Reference electrode, Biochemistry, Analytical Chemistry, Software, Calibration, Sensitivity (control systems), Physical and Theoretical Chemistry, Process engineering, business.industry, 010401 analytical chemistry, Paper based, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Substrate (building), potentiometry, point-of-care, Electrode, paper-based sensors, 0210 nano-technology, business

Abstract

A novel paper-based potentiometric platform for the simple and fast monitoring of water hardness is presented. First, potentiometric ion-selective electrodes for calcium and magnesium printed on a paper substrate were built and optimized. These sensors, which display near-Nernstian sensitivity, were used for the determination of the concentration of these cations and the calculation of the water hardness. Second, the incorporation of a solid-state reference electrode allowed building an integrated paper-based potentiometric cell for the determination of the hardness of artificial and real samples (mineral waters). The validation of the results shows good ability to predict hardness in the conventional scale. Truly decentralized measurements were demonstrated by integration of a miniaturized instrument and dedicated software in a portable device. The measurements were able to be performed in just under two minutes, including a two-point calibration. Since the method is simple to use and cost-effective, it can be implemented in domestic and industrial settings.

Published

2021

194. Electrochemical paper-based microfluidic device for on-line isolation of proteins and direct detection of lead in urine

Author

Qing Zhang, Shou-Nian Ding, Zhijuan Wang, Wang Wan, and Qing Lv

Subjects

Paper, Materials science, Microfluidics, Biomedical Engineering, Biophysics, 02 engineering and technology, Biosensing Techniques, 01 natural sciences, law.invention, law, Lab-On-A-Chip Devices, Electrochemistry, Deposition (phase transition), Electrodes, Detection limit, Microchannel, Chromatography, Filter paper, 010401 analytical chemistry, General Medicine, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Electrochemical gas sensor, Linear range, Lead, 0210 nano-technology, Atomic absorption spectroscopy, Biotechnology

Abstract

In this work, we developed a microfluidic paper-based analytical device (μPAD) for the on-line isolation of proteins and the electrochemical detection of lead ions (Pb(II)) in urine samples. The patterned filter paper was prepared through the direct printing of microchannel patterns on filter paper using an office laser printer. The paper was modified with protein precipitant and was then coupled with a detachable three-electrode system. Experimental parameters, namely, modification reagents, microchannel length and width, deposition potential, and deposition time, were optimized. Then, the maximum protein concentration under which the device can function was obtained as 300 mg L−1. The linear range was 10–500 μg L−1 with a detection limit of 9 μg L−1. The effectiveness of this device was demonstrated through the quantification of Pb(II) in urine samples and the results agreed with those of atomic absorption spectrometry (AAS).

Published

2021

195. Characterization of seventeenth century papers from Valvasor's collection of the Zagreb Archdiocese

Author

Andreja Dragojević, Jedert Vodopivec Tomažič, Branka Lozo, and Diana Gregor-Svetec

Subjects

Archeology, lcsh:QD71-142, Optical properties, lcsh:Fine Arts, Historical paper, Conservation, Non-destructive analysis, Fibres, Optical properties, 010401 analytical chemistry, lcsh:Analytical chemistry, Art history, Historical paper, Non-destructive analysis, Fibres, 02 engineering and technology, Conservation, Digital microscope, 021001 nanoscience & nanotechnology, 01 natural sciences, Gloss (optics), 0104 chemical sciences, Characterization (materials science), lcsh:N, 0210 nano-technology

Abstract

Valvasor's library is a unique example of a Seventeenth century personal library, including over 7300 prints and 1530 books. Today, it is kept in the Metropolitan Library of the Zagreb Archdiocese which is part of the Croatian State Archives. In this study, we analysed a selection of papers from Valvasor's collection (VC) of unknown origin and composition. We used a dual approach, combining the results of the analyses of two sets of samples to find the most useful tools for the characterization of historical handmade papers. 144 randomly selected papers were included in the study. As the VC is a cultural heritage, only non-destructive analyses were used, such as visual inspection, surface imaging, measurements of thickness and the determination of optical properties (brightness, yellowness, opacity and gloss). According to the optical properties, papers from the VC could be characterized as yellowish and opaque, without gloss. Due to the fact that the VC papers could not be destroyed, we took another set of samples consisting of 10 historical papers (HP) from archival materials, dating from the 16th to nineteenth century, and subjected them to non-destructive, as well as micro-destructive analyses. This was done to supplement the findings of non-destructive analyses of the original collection. Initially, spot tests were performed to determine water absorbency and to identify the presence of lignin and starch in the paper samples. SEM–EDS and XRF were applied for the identification of inorganic elements. FTIR analyses were used to identify the chemical structures of the paper components. Microscopic analyses were performed in two ways: the paper surface was imaged with a digital microscope, and the morphological characteristics of the fibres were studied using an optical microscope. The dominant fibres present were flax and hemp, with a smaller proportion of cotton. Additionally, thick and thin light brown fibres resembling straw were detected. The presence of calcium-containing components, gelatine and alum could be confirmed with SEM–EDS, XFR and FTIR analysis. Comparing the results of analyses performed on two sets of samples a connection was explored by which it was possible to define the characterization of VC papers. The main goal of the study was to document and characterize a specific collection for the future use of researchers of handmade paper or paper conservators. Furthermore, the study may serve as a model approach for other researchers who seek to document the characteristics of paper in their collections.

Published

2021

196. Screening of two freshwater green microalgae in pulp and paper mill wastewater effluents in Nova Scotia, Canada

Author

Patrick J. McGinn, Shabana Bhatti, and Robert S. Richards

Subjects

Environmental Engineering, Nitrogen, 020209 energy, Biomass, Fresh Water, 02 engineering and technology, 010501 environmental sciences, Raw material, engineering.material, 01 natural sciences, Bioplastic, Environmental technology. Sanitary engineering, pulp and paper industry, remediation, 0202 electrical engineering, electronic engineering, information engineering, Animals, Effluent, wastewater, TD1-1066, 0105 earth and related environmental sciences, Water Science and Technology, business.industry, Pulp (paper), microalgae, Paper mill, Biorefinery, Pulp and paper industry, green algae, Nova Scotia, Wastewater, Biofuels, engineering, Environmental science, business, effluents

Abstract

In recent years, the use of microalgae as feedstock for many marketable products, such as animal/aqua feeds, bioplastics and fertilizers, has gained renewed interest due to their fast growth potential coupled with relatively high lipid, carbohydrate and nutrient content. An algal biorefinery at an industrial site has the potential to sustainably and profitably convert carbon dioxide emissions into microalgal biomass and concomitantly reduce nitrogen and phosphorus from wastewaters. Industrial wastewaters are a potential alternative to traditional media used for large-scale microalgal cultivation. Pulp and paper mills are major consumers of water resources and discharge a huge amount of water to nearby lakes or rivers. This study investigated whether pulp and paper mill waste water is suitable for microalgal cultivation with the aim of achieving significant biomass production. Six different process waters from one Canadian pulp and paper mill were tested with two freshwater green microalgae. All of these waters were unable to support growth of microalgae due to inadequate nutrient concentrations, colour, turbidity and possible toxicity issues. HIGHLIGHTS Two freshwater microalgae strains were screened for potential growth on pulp and paper effluents.; Pulp and paper wastewater effluents were unable to support growth of the microalgae.; Chemical residues from the pulping process, such as peroxide and tannin, may inhibit algal growth.

Published

2021

197. Comparative Analysis of Paper-Based and Web-Based Versions of the National Comprehensive Cancer Network-Functional Assessment of Cancer Therapy-Breast Cancer Symptom Index (NFBSI-16) Questionnaire in Breast Cancer Patients: Randomized Crossover Study

Author

Jinfei Ma, Zihao Zou, Emmanuel Eric Pazo, Salissou Moutari, Ye Liu, and Feng Jin

Subjects

medicine.medical_specialty, 020205 medical informatics, Wilcoxon signed-rank test, Computer applications to medicine. Medical informatics, R858-859.7, Health Informatics, 02 engineering and technology, patient-reported outcome, 03 medical and health sciences, breast cancer, 0302 clinical medicine, Breast cancer, SDG 3 - Good Health and Well-being, Health Information Management, 0202 electrical engineering, electronic engineering, information engineering, medicine, reproducibility, Reliability (statistics), Original Paper, business.industry, test-retest reliability, Cancer, medicine.disease, Crossover study, NFBSI-16, Test (assessment), Concordance correlation coefficient, web-based questionnaire, 030220 oncology & carcinogenesis, Physical therapy, Patient-reported outcome, business

Abstract

BACKGROUND Breast cancer remains the most common neoplasm diagnosed among women in China and globally. Health-related questionnaire assessments in research and clinical oncology settings have gained prominence. The National Comprehensive Cancer Network–Functional Assessment of Cancer Therapy–Breast Cancer Symptom Index (NFBSI-16) is a rapid and powerful tool to help evaluate disease- or treatment-related symptoms, both physical and emotional, in patients with breast cancer for clinical and research purposes. Prevalence of individual smartphones provides a potential web-based approach to administrating the questionnaire; however, the reliability of the NFBSI-16 in electronic format has not been assessed. OBJECTIVE This study aimed to assess the reliability of a web-based NFBSI-16 questionnaire in breast cancer patients undergoing systematic treatment with a prospective open-label randomized crossover study design. METHODS We recruited random patients with breast cancer under systematic treatment from the central hospital registry to complete both paper- and web-based versions of the questionnaires. Both versions of the questionnaires were self-assessed. Patients were randomly assigned to group A (paper-based first and web-based second) or group B (web-based first and paper-based second). A total of 354 patients were included in the analysis (group A: n=177, group B: n=177). Descriptive sociodemographic characteristics, reliability and agreement rates for single items, subscales, and total score were analyzed using the Wilcoxon test. The Lin concordance correlation coefficient (CCC) and Spearman and Kendall τ rank correlations were used to assess test-retest reliability. RESULTS Test-retest reliability measured with CCCs was 0.94 for the total NFBSI-16 score. Significant correlations (Spearman ρ) were documented for all 4 subscales—Disease-Related Symptoms Subscale–Physical (ρ=0.93), Disease-Related Symptoms Subscale–Emotional (ρ=0.85), Treatment Side Effects Subscale (ρ=0.95), and Function and Well-Being Subscale (ρ=0.91)—and total NFBSI-16 score (ρ=0.94). Mean differences of the test and retest were all close to zero (≤0.06). The parallel test-retest reliability of subscales with the Wilcoxon test comparing individual items found GP3 (item 5) to be significantly different (P=.02). A majority of the participants in this study (255/354, 72.0%) preferred the web-based over the paper-based version. CONCLUSIONS The web-based version of the NFBSI-16 questionnaire is an excellent tool for monitoring individual breast cancer patients under treatment, with the majority of participants preferring it over the paper-based version.

Published

2021

198. Functional paper-based materials for diagnostics

Author

Laura M. Hillscher, Markus Biesalski, Valentina J. Liebich, Harald Kolmar, and Olga Avrutina

Subjects

cellulose functionalization, Computer science, μPAD, 010401 analytical chemistry, lateral flow assay, 02 engineering and technology, General Chemistry, Paper based, 021001 nanoscience & nanotechnology, biosensor, 01 natural sciences, Biochemistry, 0104 chemical sciences, Functional papers, Systems engineering, 0210 nano-technology, point-of-care diagnostics, Lecture Text

Abstract

Functional papers are the subject of extensive research efforts and have already become an irreplaceable part of our modern society. Among other issues, they enable fast and inexpensive detection of a plethora of analytes and simplify laboratory work, for example in medical tests. This article focuses on the molecular and structural fundamentals of paper and the possibilities of functionalization, commercially available assays and their production, as well as on current and future challenges in research in this field. Graphic abstract

Published

2021

199. Investigation of AC breakdown properties of paper insulators and enamel insulation impregnated with rice oil, corn oil and peanut oil for transformers

Author

Thinh Ngoc Quach, Long Phuoc Nguyen, and Dung Van Nguyen

Subjects

010302 applied physics, Pressboard, food.ingredient, Materials science, Enamel paint, Transformer oil, 020208 electrical & electronic engineering, 02 engineering and technology, 01 natural sciences, Atomic and Molecular Physics, and Optics, food, visual_art, 0103 physical sciences, Ultimate tensile strength, 0202 electrical engineering, electronic engineering, information engineering, visual_art.visual_art_medium, medicine, Peanut oil, Electrical and Electronic Engineering, Composite material, Mineral oil, Corn oil, Kraft paper, medicine.drug

Abstract

The AC breakdown properties of Kraft paper, pressboard and the enamel insulation layer in rice oil, peanut oil and corn oil were investigated under both new and aged conditions. The ageing of paper insulators and the enamel insulation layer in oils with the open cup method was carried out at 130 oC for 500 h in an air circulation oven. The puncture breakdown strength was determined by varying the number of layers and thickness of Kraft paper, while various electrode gap distances were used to measure the surface breakdown strength. Experimental results show that the breakdown strength and the tensile strength of paper insulators impregnated with these vegetable oils are comparable to that in mineral oil, and the surface breakdown strength of paper insulators is slightly affected by types of impregnating oils. The ageing significantly reduces both the breakdown strength and the tensile strength of paper insulators in investigated oils. In addition, it was also found that the enamel layer in vegetable oils withstood higher puncture breakdown strength than in mineral oil, and the ageing process significantly reduced the puncture breakdown strength of the enamel layer. This enamel layer was observed to markedly enhance the surface breakdown strength of pressboard.

Published

2019

200. Active paper packaging material based on antimicrobial conjugated nano-polymer/amino acid as edible coating

Author

Saber Ibrahim, Houssni El Saied, and Mohamed Hasanin

Subjects

chemistry.chemical_classification, Coated paper, Multidisciplinary, Materials science, 02 engineering and technology, Polymer, 010501 environmental sciences, engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, Differential scanning calorimetry, Coating, Dynamic light scattering, Chemical engineering, chemistry, engineering, Zeta potential, Fourier transform infrared spectroscopy, 0210 nano-technology, 0105 earth and related environmental sciences, Antibacterial agent

Abstract

Conjugated amino acid with nano-biodegradable polymer was applied as ecofriendly and edible coating. Polystyrene sulfate (PSS) was highly investigated with dynamic light scattering (DLS) to measure the particle size and over charge (zeta potential measurements) of nano-polymer system as well as the homogeny of particle distribution in presence and absence of Lysine mixture (AA). In addition, topographical structure of the coating was studied for PSS, AA and conjugated one as well as Fourier transform infrared (FTIR) and Differential Scanning Calorimetry (DSC). Antimicrobial test cleared that the prepared conjugate described as broad-spectrum antibacterial agent as well as antifungal with different concentrations. The hydrophilic active ingredient is absorbed into fiber, distributed homogenously and kept out the fiber loaded with antimicrobial properties over all areas. Tensile strength of the paper sheets coated with uni-layer 200 µ thickness presented good improving in physical and mechanical properties of coated paper sheets as well as gives more fiber condensation according to Scanning Electron Microscope (SEM) topography.

Published

2019