Showing total 352,261 results

1. End Paper

Published

2024

2. Writing and publishing a research paper

Author

MacKenzie, I. Scott, primary

Published

2024

3. Development of paper-based microfluidic technology for food quality analysis

Author

Alahmad, Waleed, primary, Varanusupakul, Puttaraksa, additional, Halabi, Ahmad, additional, and Varanusupakul, Pakorn, additional

Published

2024

4. Paper

Author

Grossmann, Harald, primary, Handke, Toni, additional, and Brenner, Tobias, additional

Published

2024

5. Plasmonic filter paper for preconcentration, separation and SERS detection harmful chemicals in chili product by fluid flow.

Author

Tao X, Zhang Z, Liu Z, Fan X, Yu Q, Xu L, Wang H, Guo J, and Kong X

Subjects

Silver, Cellulose, Filtration, Spectrum Analysis, Raman, Paper, Metal Nanoparticles

Abstract

We proposed a triple functional SERS substrate by immobilized Ag nanoparticles on the surface of filter paper. The high dense Ag nanoparticles were distributed on the SERS substrate via in-situ growth process. By optimizing the parameter in preparation process, the optimal filter paper SERS substrate was fabricated by using 30 mM of AgNO 3 with 20 S growth time. Due to capillary-effect wicking of cellulose fiber, the paper SERS substrate provide simple, fast and pump-free function for transferring analyte onto sharp tip through development of fluid. The fluid flow also brings target concentrate effect within the tip area. Furthermore, the separation feasibility was obtained during the development process of fluid. The preconcentrated effects not only enhanced the SERS signal of analyte, but also improve the fluorescence visible effect. The filter paper SERS substrate was successfully used for separating, concentrating and detecting Sudan dye from chili product, the detection limit could achieve 10 -6 M. This study developed a portable, cost-effective and eco-friendly SERS substrate for separating and detecting trace chemical in food., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

6. Evaluating the efficiency of the 2020 ban of BPA and BPS in thermal papers in Switzerland.

Author

Demierre AL, Reinhard H, Zeltner S, and Frey S

Subjects

Switzerland, Benzhydryl Compounds toxicity, Benzhydryl Compounds analysis, Paper, Phenols toxicity, Phenols analysis

Abstract

Thermal printing technology requires a color developer to activate the dye under the action of heat. Bisphenol A (BPA) has traditionally been used for this purpose, although it has increasingly been replaced by bisphenol S (BPS) in recent years. Due to concerns regarding their toxicity, the Swiss authorities have banned both BPA and BPS from thermal papers since 2020. The impact of this regulatory decision was evaluated during 3 monitoring campaigns: in 2013-2014, 2019 and 2021. They were used to describe the starting point, the transition phase, and the status after entry into force of the ban, respectively. Whereas the use of BPA as color developer dropped from 82.2% in 2013/14 to 10.8% in 2021, the fraction of BPS-based thermal paper rose from 3.1% to 19.1% during the same period, despite being banned. However, Pergafast® 201 (PF201) is now the main color developer in thermal paper in Switzerland, with an occurrence of 60.3%. Other alternatives such as D-8, TGSA, PPSMU, NKK-1304, BPS-MAE, D-90 and Blue4est® have only been marginally detected. This study demonstrates the efficiency of the regulatory measure and the feasibility to substitute BPA in thermal papers with less-toxic alternatives., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

7. Paper and cardboard waste in the United States: Geographic, market, and energy assessment

Author

Anelia Milbrandt, Jarett Zuboy, Kamyria Coney, and Alex Badgett

Subjects

Paper waste, Cardboard waste, Municipal solid waste, MSW, Waste value, Landfilled waste, Environmental technology. Sanitary engineering, TD1-1066, Standardization. Simplification. Waste, HD62

Abstract

Reliable data on U.S. paper and cardboard waste by location and type are critical for developing waste-reduction solutions, but detailed geographic analysis is lacking in the literature. In this study, we employ statistical and geospatial methods to assess paper and cardboard waste in the United States by type at the national, state, county, and local levels. Of the estimated 110 million tons of paper and cardboard waste managed domestically in 2019, approximately 56% was landfilled, 6% was combusted, and 38% was recycled. The estimated market value of paper and cardboard lost to landfilling in 2019 was $4 billion, and the estimated losses of embodied energy and combustion energy were equivalent to 9% and 4% of U.S. primary industrial energy consumption, respectively. Associated landfilling fees amounted to almost $4 billion. This study aims to inform efforts to implement beneficial waste-management strategies by policy makers, researchers, businesses, and communities across the United States and to provide a model for similar studies in other parts of the world.

Published

2024

8. Therapeutic drug monitoring of clozapine in human serum by high-throughput paper spray mass spectrometry

Author

A. Saatchi, T.M. Zarkovic, S.A. Borden, J. Palaty, and C.G. Gill

Subjects

Clozapine and norclozapine, Therapeutic drug monitoring, Paper spray mass spectrometry, Tandem mass spectrometry, High-throughput, Medical technology, R855-855.5

Abstract

Introduction: Monitoring the atypical antipsychotic drug clozapine is crucial to ensure patient safety. This article showcases a high-throughput analytical method for measuring clozapine and its primary metabolite norclozapine (N-desmethylclozapine) in serum using paper spray mass spectrometry (PS-MS). Objectives: This study aimed to assess the viability of a PS-MS method for the rapid measurement of clozapine and norclozapine in human serum samples as an alternative to liquid chromatography mass spectrometry (LC-MS). Methods: Serum samples were processed by protein precipitation followed by deposition of the supernatant containing labelled internal standards onto paper spray substrates mounted in cartridges. Analytes were then analyzed using a triple quadrupole mass spectrometer equipped with a commercial paper spray ionization source. The results obtained from the patient samples were compared to those from a validated LC-MS assay. Results: PS-MS calibrations for clozapine and norclozapine were linear (R2 > 0.99) over five days. Between-run precision was below 8 %, and within-run precision did not exceed 10 %. When compared to a validated LC-MS method, the mean bias for 39 patient samples was −9% for clozapine and −1% for norclozapine, with no outliers. Mass spectrometry ion ratio comparisons indicated no interference for patient samples above the lower limit of quantification. There was less than 7 % change in the measured concentrations of both analytes over five days for samples dried on paper substrates. Notably, virtually no maintenance of the MS source was required during this study. Conclusion: This study illustrates the potential of PS-MS for serum drug monitoring in the clinical laboratory.

Published

2024

9. Enhancing wood functionality: A novel approach with Al2O3 impregnated paper on densified wood surface

Author

Menghong Jiang, Ziling Liu, Aokai Cheng, Shanghuan Feng, Changhua Fang, and Dengyun Tu

Subjects

Poplar wood (Populus tomentosa carr.), Surface densification, Surface properties, Al2O3 impregnated paper, Flooring, Mining engineering. Metallurgy, TN1-997

Abstract

To improve the surface properties of low-density wood, poplar wood was functionalized by laminating Al2O3 impregnated paper onto poplar wood (Populus tomentosa Carr.) via unilateral surface compression. Bonding strength between Al2O3 impregnated paper and wood reached up to 3.08 MPa, meeting commercial grade I requirements for impregnated paper laminated wood flooring. A cross-linked structure between Al2O3 impregnated paper and wood was formed without visible cracks or other defects. Density of the functionalized wood surface increased remarkably and the surface hardness was significantly improved, surpassing that of hardwoods for wood flooring. The functionalized wood surface also exhibited high wear resistance, which reached to the specification for commercial grade I impregnated paper laminated wood flooring. Additionally, the water resistance of the functionalized wood surface was significantly improved through lamination with Al2O3 impregnated paper. The functionalized wood demonstrated high applicability for wood flooring.

Published

2024

10. Bacterial degradation of emerging pollutants from paper industry wastewater

Author

Kumar, Rajesh, primary and Raj, Abhay, additional

Published

2023

11. Applications of Process Integration Methodologies in the pulp and paper industry

Author

Moussavi, Alireza, primary, Bonhivers, Jean-Christophe, additional, Filho, Rubens Maciel, additional, Mariano, Adriano Pinto, additional, and Stuart, Paul R., additional

Published

2023

12. Sensing Materials: Paper Substrates

Author

Sousa, Lucas R., primary, Silva-Neto, Habdias A., additional, Moreira, Nikaele S., additional, Guinati, Bárbara G.S., additional, and Coltro, Wendell K.T., additional

Published

2023

13. Advanced techniques for manufacturing paper-based microfluidic analytical devices

Author

Faheem, Aroosha, primary and Cinti, Stefano, additional

Published

2023

14. Disposable paper-based sensors

Author

Bilgen, Ecenaz, primary, Suvacı, Zeynep, additional, Persil Çetinkol, Özgül, additional, and Forough, Mehrdad, additional

Published

2023

15. Sensing Materials: Flexible Carbon-Based Electrochemical Devices Based on the Three-Dimensional Architecture of Paper

Author

Lima, Renato S., primary, Strauss, Mathias, additional, and Santhiago, Murilo, additional

Published

2023

16. Paper chromatography of different amino acid

Author

Tantray, Javeed Ahmad, primary, Mansoor, Sheikh, additional, Wani, Rasy Fayaz Choh, additional, and Nissa, Nighat Un, additional

Published

2023

17. Pulping and paper mechanical properties of Bambusa vulgaris, Gigantochloa levis, and Gigantochloa scortechinii bamboo

Author

Hassan, N.M.H., primary, Suhaimi, N.M., additional, and Abdullah, N., additional

Published

2023

18. Organic systems under major changes—A deep crisis in the management of the organic world of our planet—New tasks for foresight: An opinion paper

Author

Koukios, Emmanuel G., primary and Karaoglanoglou, Lazaros S., additional

Published

2023

19. Bioresources, environmental aspects, and patent scenario for biobleaching in pulp and paper industry

Author

Gupta, Guddu Kumar, primary, Pathak, Gaurav, additional, Shukla, Pratyoosh, additional, and Kapoor, Rajeev Kumar, additional

Published

2023

20. Hyphenating paper-based biosensors with smartphones

Author

Dillon, Michael J., primary and Campbell, Katrina, additional

Published

2023

21. Microbial enzyme bioprocesses in biobleaching of pulp and paper: technological updates

Author

Gupta, Guddu Kumar, primary, Dixit, Mandeep, additional, Pandey, Dharini, additional, Kapoor, Rajeev Kumar, additional, Kango, Naveen, additional, and Shukla, Pratyoosh, additional

Published

2023

22. Paper Analysis

Author

Roux, Claude, primary and Jones, Kylie, additional

Published

2023

23. Advanced output—Paper Space

Author

Gindis, Elliot J., primary and Kaebisch, Robert C., additional

Published

2023

24. Modeling the impact of high thermal conductivity paper on the performance and life of power transformers

Author

S. Bilyaz, A. Bhati, M. Hamalian, K. Maynor, T. Soori, A. Gattozzi, C. Penney, D. Weeks, Y. Xu, L. Hu, J.Y. Zhu, J.K. Nelson, R. Hebner, and V. Bahadur

Subjects

Power transformers, Insulation paper, High thermal conductivity, Thermal modeling, Transformer life model, Paper degradation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Degradation of insulation paper is a key contributor to the failure of power transformers. Insulation degradation accelerates at elevated temperatures, which highlights the potential for better thermal management to prolong life. While several studies have analyzed the benefits of high thermal conductivity oil for reducing temperatures inside a transformer, this study is an initial assessment of the benefits of high thermal conductivity paper on transformer life. Blending particulates with cellulosic fibers offers a pathway for high thermal conductivity paper (with good dielectric properties), which can reduce internal temperatures. Presently, life extensions that can be achieved by the use of such thermally conducting papers were estimated, with the thermal conductivity of the paper being the key parameter under study. The analytical-numerical thermal model used in this study was validated against experimental measurements in a distribution transformer, adding confidence to the utility of the model. This model was then used to provide estimates of hot-spot temperature reduction resulting from the use of papers with higher thermal conductivity than baseline. Transformer life was predicted conventionally by tracking the degree of polymerization of paper over time, based on an Arrhenius model. Results indicate that increasing the thermal conductivity of paper from 0.2 W/mK (baseline) to 1 W/mK reduces the hot spot temperature by 10 °C. While degradation significantly depends on the moisture and oxygen content, the model shows that such a temperature reduction can increase life for all conditions, by as much as a factor of three.

Published

2024

25. Smartphone-enabled green anthocyanin sensor for Fe(III) sensing on paper using capillary-driven microfluidics

Author

Prakash Aryal, Anastasia Wheni Indrianingsih, and Charles S. Henry

Subjects

Microfluidics, Anthocyanins, Colorimetric sensor, Fe(iii), Paper-based detection, Analytical chemistry, QD71-142

Abstract

Chemical wastes, such as synthetic dyes and coloring agents, pose significant concerns due to their detrimental impact on human health and ecosystems. As an eco-friendly alternative, the study of natural dyes and coloring agents has gained momentum over the last decade, owing to their biodegradability and reduced environmental and health risks. Here, we report a novel approach employing a butterfly pea anthocyanin paper-based sensor to quantify Fe(III) ions in water. Compared to previous green sensing techniques reliant on heavy instrumentations, this approach offers enhanced accessibility, cost-effectiveness, and user-friendliness. Notably, this study is the first example of natural dye sensing on a capillary microfluidics system. The capillary-driven microfluidic system ensures user-friendly operation and allows the sensing platform to be directly immersed in water without reagent loss. The device's design involves drying the butterfly pea-derived anthocyanin reagent within a pH-controlled paper substrate embedded in the capillary-driven microfluidic system. Smartphone-based colorimetric signal generation and quantification was achieved within seconds for a working range of 50–800 mg/L, with the device's detection limit of 43 mg/L using ImageJ and 55 mg/L using the smartphone app. This green sensing methodology has the potential to be used for groundwater sources with elevated Fe(III) levels. Additionally, this platform can be used in chemistry educational settings as an effective means to understand fundamental concepts such as acid-base reactions, base strength, ionic equilibrium, and metal complexation in a user-friendly microfluidic system.

Published

2024

26. Structure, properties, and fabric applicability of sustainable paper yarn with high washing stability

Author

Hafeezullah Memon, Diefei Hu, Lingya Wu, Yan Wang, Juming Yao, Jiri Militky, Dana Kremenakova, and Guocheng Zhu

Subjects

Paper Yarn, Yarn evenness, Wicking, Mechanical properties, Washing stability, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This research provides an in-depth assessment of two paper yarn variants, examining their structural, functional, and performance characteristics. These yarns demonstrated favorable properties, including suitable linear density, twist, typical cellulosic functional groups as confirmed by Infrared spectroscopy, minimal hairiness, moisture transfer, and creditable mechanical strength. These yarns have flat layered cross-sections and grooved longitudinal surfaces. In addition, a low hairiness index (1.3–1.33) further acknowledged their smooth surface. Their remarkable evenness (15.86% and 7.08%) supported their effective wicking properties. Despite average breaking strength (0.77 cN/dTex and 1.05 cN/dTex) and moderate elongation, these yarns exhibited exceptional water-washing resistance and retained over 89% breaking strength after 15 washes. This study ranks these paper yarns as highly suitable for durable clothing fabrics, providing promising sustainable alternatives in the textile industry.

Published

2024

27. Carbon fiber paper based on composites of carbon and polyacrylonitrile for fuel cell application

Author

Aref Arabsahebi, Parisa Akbarian, and Mehdi Kheirmand

Subjects

Polyacrylonitrile, Carbon composite, Carbon fiber paper, Gas diffusion layer, Polymer electrolyte membrane fuel cell, Chemistry, QD1-999

Abstract

Carbon fiber paper is one of the most important substrates used in the gas diffusion layer of the polymer electrolyte membrane fuel cell. A novel approach to creating carbon fiber paper using polyacrylonitrile compounds was proposed in this study. The technique incorporated varying amounts of carbon materials, including carbon black (Vulcan), graphite powder, and carbon nanotubes. Polyacrylonitrile carbon materials were prepared through the spinning process, followed by oxidative stabilization under an oxygen atmosphere at a temperature range of 160–300 °C as the first step. The pliable material undergoes a conversion process to create a compound or ladder that is non-plastic, which is then stabilized in an N2 atmosphere. The fibers are then pre-carbonized at temperatures ranging from 300 to 600 °C and further carbonized between 600 and 1100 °C. After that, Teflon is added and the resulting fibers are made into sheets during the production process. Finally, physical measurements and electrochemical methods such as: checking the amount of water absorption, scanning electron microscope (SEM), chronopotentiometry, electrochemical impedance spectroscopy, electron resistance of carbon sheet, double layer capacitance, and surface roughness parameter were evaluated. The results indicate that the best performance is related to CP7 carbon paper (with a 30–70 % combination of polyacrylonitrile and carbon black).

Published

2024

28. Unveiling per- and polyfluoroalkyl substance contamination in Chinese paper products and assessing their exposure risk

Author

Yan-Fei Chen, Ting Liu, Li-Xin Hu, Chang-Er Chen, Bin Yang, and Guang-Guo Ying

Subjects

Per- and polyfluoroalkyl substances, Paper products, Non-target analysis, Migration, Risk assessment, Environmental sciences, GE1-350

Abstract

The contamination characteristics, migration patterns and health risks of per- and polyfluoroalkyl substances (PFAS) were investigated in 66 Chinese paper products by using target and non-target screening methods. Among 57 target PFASs, 5 and 6 PFASs were found in the hygiene paper products (

Published

2024

29. Fabrication of highly conductive graphene paper for supercapacitors with a one-step hydrothermal method

Author

Rajesh Ghosh, Mohd Salman Siddiqui, and Hemen Kalita

Subjects

graphene paper, hydrothermal, additive free, highly conducting, supercapacitor, Chemistry, QD1-999

Abstract

We present a facile one-step hydrothermal method for the fabrication of free-standing graphene paper using aqueous graphene oxide (GO) dispersion as the starting material. Notably, the method does not require the use of any additives for the reduction and preparation of the graphene paper. The resulting graphene paper exhibits a high degree of reduction, as confirmed by X-ray photoelectron spectroscopy (XPS) analysis, revealing a carbon-to-oxygen (C/O) ratio of ∼7. The fabricated graphene paper also demonstrates excellent conductivity, with a measured value of ∼1900 S/m, and sheet resistance of around 100 Ω/sq. Furthermore, the energy storage capability of the graphene paper based electrode is evaluated, which shows a promising specific capacity of 249 F/g at a current density of 1 A/g in 1M H2SO4 as the ionic medium. Additionally, the electrode has also demonstrated remarkable energy density and power density values of 28.68 Wh/Kg and 455 W/Kg, respectively. Overall, the resulting graphene paper exhibits high conductivity and excellent electrochemical performance, making it a promising candidate for various energy storage applications.

Published

2024

30. A paper-based ratiometric fluorescent sensor for NH3 detection in gaseous phase: Real-time monitoring of chilled chicken freshness

Author

Huang Xiaowei, Zhao Wanying, Sun Wei, Li Zhihua, Zhang Ning, Shi Jiyong, Zhang Yang, Zhang Xinai, Shen Tingting, and Zou Xiaobo

Subjects

Ratio fluorescence, Visual analysis, Chilled Chicken Freshness, Paper-based sensors, Ammonia, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

A ratiometric fluorescence sensor platform with easy-to-use and accurate is nanoengineered for NH3 quantitative detection and visual real-time monitoring of chicken freshness using smartphones. The ratiometric fluorescent probe formed by combining the zinc ion complex and carbon dots has a double-emitted fluorescence peak. The fluorescence intensity of the complex changed can be clearly observed with the increase of the concentration of ammonia solution under 365 nm wavelength excitation. In order to detect NH3 concentration in gaseous phase, a portable paper-based sensor was designed. The sensor had a good linear relationship with NH3 concentration ranging from 10.0 to 90.0 μmol/L and the LOD value was 288 nM. This fluorescent paper-based sensor was used to check the freshness of chicken breast refrigerated at 4 °C, revealed observable shifts from blue to green. The fluorescent paper-based sensor can detect NH3 concentration in real time and simplify the monitoring process of meat freshness while ensuring accuracy and stability.

Published

2024

31. Bamboo in the pulp, paper and allied industries

Author

Unnati Chaudhary, Shuank Malik, Vikas Rana, and Gyanesh Joshi

Subjects

Bamboo applications, Bamboo pulp and paper, Bamboo composites, Bamboo textiles, Bamboo in natural forest, Forestry, SD1-669.5

Abstract

Bamboo, a member of the grass family, is a fast growing and high yielding renewable resource. The popularity of bamboo has risen in recent times owing to its multifaceted and myriad of practical applications. There are unlimited uses of bamboo, therefore proper utilization of this beneficial resource will be useful to the industrial sector. This review provides a comprehensive summary regarding the potential of bamboo as a vital non-wood fibrous raw material for pulp, paper and other allied industries owing to its ability to conserve forests and foster sustainable economic development. Bamboo's abundance, renewability, mechanical strength, and other functional features make it an appealing and potential building biomaterial in the pursuit of sustainable raw materials needed for industrial development. This review provides an in-depth summary and unique perspective on the application of bamboo at a commercial scale in various sectors, thereby encouraging the utilization of this potential material towards environmental sustainability and economic growth.

Published

2024

32. Post-fabrication adjustment of metalloid Mg–C-graphene nanoparticles via Pulsed Laser Ablation for paper electronics and process optimisation

Author

Anesu Nyabadza, Éanna McCarthy, Mercedes Vázquez, and Dermot Brabazon

Subjects

Metalloid nanoparticles, Carbon nanoparticles, Magnesium nanoparticles, Paper electronics, Inkjet printing, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Metalloid nanoparticles (MNPs) possess unique physicochemical properties but are challenging to create through biological or chemical routes. Using Pulsed Laser Ablation in Liquid (PLAL), Mg–C MNPs are fabricated from powders. The produced nanocolloids were ablated after the target was removed to tailor the particle size. MNPs with a mean size 300 nm could be reduced to 60 nm. Alternatively, MNPs with a mean size of 60 nm could be increased to 90 nm. The increase/decrease in size is controlled by the laser processing parameters and showcases the ability of PLAL for real-world applications that require meticulous control of size. The as-fabricated nanocolloids were successfully inkjet printed on paper, achieving a low resistivity of 75 Ω/square after 60 prints, highlighting their potential in printed electronics. To address a historical research gap, this article explored the impact of PLAL processing parameters, including fluence (1–2 J/cm2), pulse width (0.2–0.9 ns), repetition rate (10–20 kHz), and pH, factors often overlooked which is partly limiting applications. The influence of powder vs rod target on the PLAL process was addressed revealing that powders produce better size control and are easier to handle but they produce lower colloid concentrations.

Published

2024

33. Development of fluorescent GO-AgNPs-Eu3+ nanoparticles based paper visual sensor for foodborne spores detection

Author

Jiaqi Tian, Qiancheng Tu, Miaoyun Li, Lijun Zhao, Yaodi Zhu, Jong-Hoon Lee, Zhengyan Gai, Gaiming Zhao, and Yangyang Ma

Subjects

Food-borne spores, 2,6-Dipicolinic acid, Paper sensor, GO-AgNPs-Eu3+, Fluorimetric sensing, Visualization, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Foodborne spores are ubiquitous with extremely strong resistance, and pose a serious threat to food safety and human health. Therefore, rapid, sensitive, and selective detection of spores are crucial. In this study, a fluorescent probe was developed based on lanthanide ion (Eu3+)-labeled nano-silver-modified graphene oxide (GO-AgNPs-Eu3+) for the detection of 2,6-dipicolinic acid (DPA), a biomarker unique to spores, to allow quantitative spores detection. The GO-AgNPs-Eu3+ nano-fluorescent probe was loaded onto a polyvinylidene fluoride microfiltration membrane, and a smartphone-assisted portable GO-AgNPs-Eu3+ nanoparticles-based paper visual sensor was designed for rapid on-site quantitative and real-time online detection of spores. The results indicated that the developed probe achieved equilibrium binding with DPA within 5 min, and enhanced fluorescence emission through antenna effect. The fluorescence detection presented a good linear relationship in the DPA concentration range of 0–45 μM, with a DPA detection limit of 4.62 nM and spore detection limit of 104 cfu/mL. The developed sensor showed a change in fluorescence from blue to red with increasing DPA concentration, and this color change was quantitatively detected through smartphone RGB variations, with a detection limit of 13.1 μM for DPA and 6.3 cfu/mL for Bacillus subtilis spores. Subsequently, the sensitivity and selectivity of the developed sensor were verified using actual milk and water samples spiked with B. subtilis spores. The results of this study provided objective technological support for rapid detection of spores, which is important for reducing the occurrence of foodborne diseases and improving food safety.

Published

2024

34. Portable optical biosensor for point-of-care monitoring of salivary glucose using a paper-based microfluidic strip

Author

Shweta Panwar, Paulami Sarkar, D. Syed Kasim, Raksha Anand, Akanksha Priya, Shyam Prakash, and Sandeep Kumar Jha

Subjects

Non-invasive glucometer, Handheld optical biosensor, Salivary glucose biosensor, Paper fluidic biosensor, Reflectance spectroscopy, Biotechnology, TP248.13-248.65

Abstract

The manuscript describes a technique for fabrication and validation of a standalone handheld optical biosensor designed for non-invasive monitoring of glucose through saliva. In this cost-effective process, a 3D-printed glucose test strip was filled with sieving paste comprising of cellulose, polyethylene glycol (PEG), polyvinyl alcohol (PVA) and glycerol, onto which, glucose oxidase-peroxidase (GOD-POD) enzymes and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) chromogenic dye were co-immobilized. The enzymatic reaction produced H2O2 as by-product with which the ABTS reacted, leading to colour change on the detection zone of the strip which was detected by the developed glucometer. The in-house developed meter included an optically isolated section in its structure for inserting the strip to prevent interference from the ambient light conditions. The biosensor exhibited a broad detection range of 28–204 mg/dL of glucose concentration, with a sensitivity of 26.89 count/mg/dL and a limit of detection (LOD) at 28 mg/dL, within a response time of 120 s. The device along with strips was validated with clinical samples, comparing salivary glucose levels (SGL) to blood glucose levels (BGL) using a commercial glucometer i.e., Accu-Chek Active. Student's t-test on clinical data yielded p-values of 0.018, 0.01, 0.008, and 0.003 in fasting and post-prandial samples of non-diabetic and diabetic patients respectively, which represents a significant correlation. The device also passed Clarke's error grid analysis and is hence considered medically acceptable. The low-cost and simple-to-use saliva-based glucometer should be ideally suited for mass screening of diabetes as well as day-to-day health check-ups in a non-invasive and painless manner.

Published

2024

35. User-friendly diameter-based measurement paper sensor for chloride detection in water

Author

Benjarat Tasangtong, Thanapit Pholsaptanakorn, Thanakorn Tapsawut, Nisakorn Wiwekwin, Jaruwan Mettakoonpitak, Piyaporn Na Nongkhai, and Yupaporn Sameenoi

Subjects

Chloride in water, Paper sensor, Diameter-based measurement, On-site analysis, Paper-based device, Analytical chemistry, QD71-142

Abstract

Chloride (Cl−) is an anion widely distributed in nature. It is also an essential parameter to consider when assessing the water quality for ensuring drinking water safety, preventing infrastructure damage, mitigating environmental impact, identifying groundwater contamination. This work presents the first development of a diameter-based measurement paper sensor for chloride analysis using the reaction based on a Mohr's precipitation titration. The paper sensor that has a circular shape with 3-cm diameter was pre-coated with AgNO3 and CrO42− forming brown precipitates of the Ag2CrO4. The sensor was sealed using lamination films with 3-mm diameter hole-punched inlets on the top of the lamination film for sample delivery. To detect chloride, the sensor was simply immersed into the sample. The chloride solution flows into the central sample inlet and spreads radially to undergo the displacement reaction with Ag2CrO4 precipitate, forming AgCl white precipitate whose diameter proportional to the chloride that can be observed within 3 min. Concentration of AgNO3 used was found to impact the analytical figures of merit. The lower AgNO3 concentration yields lower limit of detection, narrower linear range but higher sensitivity. The sensor was applied for chloride analysis in tap water, drinking water and industrial water and the chloride concentration obtained from the developed sensors are not significant differences from those obtained from the standard titration method at 95% confidence interval (two tailed P = 0.08) indicating that the developed sensor provides accurate analysis of chloride in water samples from various sources. The developed sensor was used by the untrained staffs for on-site of analysis chloride in tap water collected at 26 locations in SaenSuk Municipality area, Chonburi, Thailand. The results showed that the chloride level in all samples is in range of 52.2–84.7 mg L−1 which is far below the acceptable range set by the Provincial Waterwork Authority of Thailand (< 250 mg L−1) indicating that the tap water used in this area is safe for consumers.

Published

2024

36. Bacterial cellulose-based paper production coated with poly-ethylene oxide/poly-vinyl alcohol

Author

Saharman Gea, Marpongahtun, Darwin Yunus Nasution, Khatarina Meldawati Pasaribu, Rahmi Mardiyah Tambunan, Averroes Fazlurrahman Piliang, and Myrtha Karina

Subjects

Bacterial cellulose, Paper production, Coating, Poly(ethylene oxide), Poly(vinyl alcohol), Chemical engineering, TP155-156

Abstract

Wood and non-wood cellulose are commonly used as raw materials for paper production. This study aims to produce paper from bacterial cellulose (BC). Due to its high-water binding property, BC was rod-coated with the mixture of polyethylene oxide (PEO)/polyvinyl alcohol (PVA). The used of PEO was varied from 0.5, 1.0, 1.5, 2.0, and 2.5 g (w/v) whereas the use of PVA was 0.5 g (w/v). The BC paper was characterized using SEM, FTIR, and tensometer whereas the paper quality was tested by the Indonesia National Standard (SNI). The result showed the coating treatment improved the mechanical, thermal, water barrier, and quality of the paper. The optimum composition was found in the BCpAO2 sample, where the composition of PEO in the coating solution is 1.0 g. This is due to the further addition of PEO to the coating solution, makes the coating film bind more water.

Published

2023

37. Hydrophobic barrier-free laminated paper-based analytical device (LPAD) using a diameter-based measurement for determination of iodide in pharmaceutical products

Author

Nakarin Noirahaeng, Jirawat Salungyu, Saowapak Teerasong, Kanchana Uraisin, and Phoonthawee Saetear

Subjects

Argentometric titration, Mohr's method, Iodide, Laminated paper-based analytical device, LPAD, Diameter-based measurement, Analytical chemistry, QD71-142

Abstract

This work presents, for the first time, an exploitation of an argentometric Mohr's method for iodide detection using diameter-based measurement on laminated paper-based analytical device (LPAD). Our LPAD is simplified fabricated with no required hydrophobic barrier for patterning a detection flow channel. In the absence of a flow channel, the liquid is imbibed radially into the filter paper outward from the small center inlet hole. This imbibition leads to the measurement of diameter after the formation of the precipitation product. For LPAD, a rectangular piece of Whatman filter paper is cut and positioned between a top laminating sheet, which has a hole punched for inlet, and a bottom laminating sheet. The central inlet hole enables access to the liquid on the paper. For iodide analysis, silver nitrate is dispensed first, followed by the iodide standard/sample. This process leads to the formation of pale-yellow silver iodide solids on the paper. The chromate indicator solution is subsequently loaded to the paper. The color of the chromate solution imparts a tint to the circular band of silver iodide solids, resulting in an intense yellow color. When the silver iodide precipitates are stained, the chromate solution typically serves as an indicator, chemically reacting to an excess silver nitrate solution moistened on paper. This reaction generates an outer reddish-brown ring of silver chromate. The distinct color contrast between the intense yellow (tinted silver iodide) and reddish-brown (silver chromate) allows for clear observation of the measurement boundary, facilitating diameter-based measurements of the circular band of silver iodide. We demonstrate the applicability in analysis of pharmaceutical KI tablets. The quantitative results obtained from diameter-based measurement LPAD show good agreement with those obtained from the potentiometric method. Our hydrophobic barrier-free LPAD is rapid, cost-effective, low liquid consumption and applicable for onsite analysis.

Published

2024

38. Which reading comprehension is better? A meta-analysis of the effect of paper versus digital reading in recent 20 years

Author

Yifan Li and Lingling Yan

Subjects

Digital reading, Paper reading, Reading effect, Reading comprehension, Meta-analysis, Information technology, T58.5-58.64, Telecommunication, TK5101-6720

Abstract

The development of digital technology has changed the audience's reading behavior and reading habits, and the difference between digital reading and paper reading has become a research hot spot. However, the academic circle has not reached an agreement on the reading effect of digital reading and paper reading. This study included 37 experimental studies for meta-analysis and analyzed the influence of moderating variables such as audience characteristics, text characteristics, and reading conditions. This study deepens the understanding of the reading effect and provides a reference for improving it. The study shows no significant difference in overall reading comprehension between digital reading and paper reading, and there are differences under moderating variables. The study has revealed that digital reading and paper reading have advantages and disadvantages and complement each other. The publishing industry should develop corresponding knowledge service products based on the characteristics of reading effects to promote the healthy development of the reading industry.

Published

2024

39. Wearable cassette for paper-based aptasensor designed to detection of illicit drug; ketamine- a wearable cassette prototype comparison study

Author

Shariq Suleman, Nigar Anzar, Shikha Patil, Zaira Azmi, Suhel Parvez, and Jagriti Narang

Subjects

Paper based electrode, 3D printed wearable cassette, Ketamine drug, Nanoparticles, Aptasensor, Biotechnology, TP248.13-248.65

Abstract

The advent of 3D printing technology has spurred innovation, particularly in healthcare and biosensing. One notable application is the creation of wearable biosensors for detecting substances like ketamine, a potent anesthetic and pain reliever with medical and recreational uses. Monitoring ketamine levels is crucial due to potential misuse and health risks. Utilizing 3D printing, manufacturers can produce intricate and customizable wearable biosensors designed for ketamine detection. This flexibility permits the incorporation of various sensor types, enhancing accuracy. Traditional detection methods are often cumbersome, making 3D printing a transformative tool for real-time monitoring. The application of 3D printing in wearable biosensors has the potential to revolutionize personalized healthcare, ensuring the safe and effective usage of ketamine. In this paper 3D printed paper-based wearable aptamer cassette (3DP-PWC) has been developed by immobilizing Ketamine Aptamer on ZnO-NPs electrodes. Electrochemical techniques such as cyclic voltammetry (CV), linear sweep voltammetry (LSV) and electrochemical impedance spectroscopy (EIS) were employed for validating results. The sensor’s versatility was demonstrated across beverages encompassing both alcoholic and non-alcoholic options. Two prototypes—a bracelet and a pendant—were developed and compared, showing promising results. Here, we reported a 3D-printing paper based wearable aptasensor for the ketamine detection. This pioneering developed sensor showed a low limit detection (LOD) of 0.01 μg/mL (lower than the physiological detection threshold 0.084 μg/mL) with linear-range was between 0.01 and 5 μmL and an optimal response time of 25 s.

Published

2024

40. Non-Wood paper from coffee pulp Waste: How its performance as coffee filter

Author

Raden Reza Rizkiansyah, Yati Mardiyati, Arief Hariyanto, Steven Steven, and Tatacipta Dirgantara

Subjects

Cellulose, Coffee pulp, Coffee filter paper, Repeated alkali treatment, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Coffee pulp waste was having potential to be used as a source of non-wood cellulose for papermaking because of its abundance, considerable fraction of cellulose content, and low economic value. In this study, the isolated cellulosic fiber from coffee pulp waste was prepared into paper with the specific purpose of filter for coffee, with the aim as an effort to develop economic value and potential alternative utilization to reduce the environmental impact of coffee pulp waste accumulation, besides suggesting alternative non-wood cellulose source for coffee filter paper. The effect of extraction process repetition using 3 % (w/w) sodium hydroxide was studied to evaluate its effectiveness in removing the non-cellulosic content of coffee pulp, especially lignin, which could damage the taste of coffee. The physical and mechanical properties and water flow ability of coffee pulp filter paper (CPFP) were conducted to evaluate its characteristics and performance. The result showed that three times repetitions of alkali treatment to coffee pulp produced similar lignocellulosic content quality to the commercial wood-based coffee filter paper, with cellulose fraction reaching 86.67 % and residual lignin around 5.39 %. The coffee pulp-based filter paper made from three times repetition of alkali-treated coffee pulp has comparable tensile strength and excellent folding resistance compared to commercial filter paper, which reached around 526 ± 198.4 N/m and 1 df, respectively. The coffee pulp-based filter paper also demonstrated could withstand discharged through by boiling water without breaking. According to the resulting performance of CPFP, coffee pulp waste is promising to be further developed as an alternative non-wood resource for coffee filter paper manufacturing.

Published

2024

41. Development of a protocol with Typha domingensis Pers. for the treatment of wastewater from paper recycling

Author

Sergio Amarilla, Antonio Samudio-Oggero, Héctor D. Nakayama, Claudia Avalos, Carlos Méndez, and Andreas Ries

Subjects

Effluent, Wetland system, Bioremediation, Recycled paper, Environmental engineering, TA170-171, Chemical engineering, TP155-156

Abstract

The production process of recycled paper generates a significant amount of wastewater. In many cases, the companies do not have a fully adequate effluent treatment system, due to the high cost of conventional physical or chemical treatment systems, which leads to contaminated wastewater. Due to this problem, this research aims to evaluate a bioremediation system based on a flotation system with Typha domingensis plants, for the recovery of wastewater generated in the paper recycling process. The effluent treatment system was installed in the vegetation house of the Multidisciplinary Center for Technological Research (CEMIT), San Lorenzo, Paraguay. It consisted of Typhas plants arranged in plastic containers, which were classified in relation to the effluent concentration (100 %; 50 %; 30 %), in three replicates. For the evaluation of efficiency, physicochemical determinations of pH, temperature, turbidity, conductivity, BOD5, COD, total phosphorus and total nitrogen were carried out at 7-day intervals over a 4-week period. The results obtained indicate significant differences in the percentage of removal of the different pollutant concentrations, where the COD and BOD5 parameters showed removal values of 99 % and 92 %. In the case of Total Nitrogen and Total Phosphorus the values were around 92 % and 75 %, respectively, demonstrating the efficiency of the plant in the treatment of the effluent. This kind of wastewater treatment system has the potential to decrease the load of effluent pollutants produced in paper recycling. Therefore, this study concluded that the system composed of T. domingensis is an option as a potential phytoremediation system for the treatment of wastewater from paper recycling.

Published

2024

42. Activated sludge model no. 1 calibration for a paper mill wastewater treatment plant in Finland

Author

Hussain Ahmed and Matti Vilkko

Subjects

Activated sludge model, Aeration treatment, Cost-effective, COD estimation, Paper mill wastewater, Optimal operation, Environmental engineering, TA170-171, Chemical engineering, TP155-156

Abstract

The Wastewater Treatment Plant (WWTP) in the paper industry faces challenges in controlling and estimating Chemical Oxygen Demand (COD) to improve monitoring and optimize the process under varying operational and environmental conditions. However, maintaining the COD content at the desired level becomes difficult due to constantly changing environmental conditions and stricter regulations. A common method in WWTP to remove organic COD is aeration treatment. For simulating the aeration process, Activated Sludge Model No.1 (ASM1) is a widely used tool, but it requires an abundance of influent COD concentration samples to estimate the effluent COD. Collecting these samples is costly both in terms of time and human resources. This study aims to use limited wastewater samples to generate artificial data for the ASM1 model using linear regression techniques. The objective is to reduce costs associated with COD concentration sample collections for a WWTP processing wastewater of a Finnish paper mill, while still providing reliable estimations for effluent COD over an extended period by identifying the optimal tuning parameters for the ASM1.

Published

2024

43. Rapid disease diagnosis using low-cost paper and paper-hybrid microfluidic devices

Author

Zhou, Wan, primary, Tavakoli, Hamed, additional, Ma, Lei, additional, Bautista, Cynthia, additional, and Li, XiuJun, additional

Published

2022

44. Utilization of calcite-rich Green Liquor Dregs (GLD) by-products from pulp and paper industry: Cement clinker production and life cycle analysis

Author

Sumit Srivastava, Samira Moukannaa, Visa Isteri, D.D. Ramteke, Priyadharshini Perumal, Damilola Adesanya, Paivo Kinnunen, Katja Ohenoja, and Mirja Illikainen

Subjects

Green Liquor Dregs (GLD), Slaker grit, Lime mud, Clinker production, Paper and pulp waste, Limestone replacement, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The pulp and paper industry produces several calcite-rich by-products including Green Liquor Dregs (GLDs), lime mud, grits, sludges, etc. Presently, majority of these by-products are managed by landfilling. The GLD used in this study is mainly dominated by calcite (∼80 %) and Hydrotalcite like compounds (HTlc, ∼12 %). It is used to produced OPC clinkers by using them as 0 %, 5 %, 10 %, 15 %, and 20 % replacement of limestone used for clinker production. TGA-DSC analysis of the clinker raw meals up to 1350 ℃ indicates that increase in GLD leads to slight reduction in the decomposition temperature for the raw meals, and a slight change in the formation temperatures for C2S and C3S. The mineral phase compositions of all the clinkers are comparable with a slightly decreasing C3S and C2S with increasing GLD. Compared to the Bogue calculated compositions, C3S and C2S are slightly lower, while the C3A is significantly lower and C4AF is significantly higher. The environmental leaching of GLD and the clinkers are all within the limits set by EN-12457-2. The environmental impact of clinker production and effect of GLD is analyzed for cradle-to-gate scenario with system boundaries. This analysis shows that by using GLD as replacement for limestone can lower the impact on diversity as well as CO2 related to transportation can also be reduced.

Published

2024

45. Development and validation of spectrophotometric method and paper-based microfluidic devices for the quantitative determination of Amoxicillin in pure form and pharmaceutical formulations

Author

Jwan Oday, Hind Hadi, Parween Hashim, Samantha Richardson, Alexander Iles, and Nicole Pamme

Subjects

Amoxicillin (AMX), Spectrophotometry, Diazotized sulfadimidine (DSDM), Paper-based microfluidic device, Pharmaceutical dosage forms, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

There is a growing need for easy-to-use, low cost and portable quantitative assays to determine active pharmaceutical ingredients in the pharmaceutical industry. Here, we developed a batch spectrophotometric method and a method employing a paper-based microfluidic device for the estimation of Amoxicillin (AMX) in pure solution and pharmaceutical preparations. The detection depends on the coupling reaction of Amoxicillin with diazotized sulfadimidine (DSDM) in an alkaline medium. The yellow azo dye reaction product was measured at λmax 425 nm and linearity was observed from 2 to 30 mg L−1 with a detection limit of 0.32 mg L−1 and a quantification limit of 1.2 mg L−1 was found. The reaction was then transferred onto the paper-based microfluidic device and a plateau change in color intensity was found above 10 mg L−1. Thus, the paper-based microfluidic device can be applied for the semi-quantitative determination of Amoxicillin in pure solution and commercial pharmaceutical products for rapid screening.

Published

2024

46. Long term curl of printing paper due to ink solvent migration

Author

Alexander Maass and Ulrich Hirn

Subjects

Curl, Paper, Inkjet Printing, Dimensional Stability, Glycerol Migration, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The dimensional stability of paper during printing is crucial for ensuring production quality and runnability. However, inkjet printing faces inherent challenges due to the hygroscopic nature of paper and the use of water-based inks. Despite freshly printed sheets are flat, a considerable development of paper curl is often observed during storage. In this study, we establish the link between the migration of ink co-solvents and the long-term curl development of printed paper. A4 paper sheets were sprayed with a water-glycerol model ink and changes in the sheet's curvature were monitored using a 2D-laser sensor. We also investigated glycerol migration by splitting the sheets into layers and determining the glycerol distribution using high-performance liquid chromatography. Our results demonstrate the development of curl during storage as well as glycerol migration in thickness direction of the sheet, both on a comparable timescale. We thus propose that long term curl in inkjet printing can be caused by z-directional migration of the co-solvent (glycerol) over time. This study enhances understanding of the physical mechanisms that drive the long-term curl phenomenon in inkjet-printed sheets. The results can be used to optimize printing processes, allowing for the production of higher quality printed products with greater dimensional stability.

Published

2024

47. Application of mass transfer in the pulp and paper Industry− overview, processing, challenges, and prospects

Author

Olayemi A. Odunlami, Temiloluwa E. Amoo, Hassan A. Adisa, Francis B. Elehinafe, and, and Temitayo E. Oladimeji

Subjects

Mass transfer, Pulp and paper industry, Challenges of mass transfer, Benefits of mass transfer, Prospects of mass transfer, Technology

Abstract

This study reviews the mass transfer with a focus on the challenges, benefits, processing and prospects in the pulp and paper industry with a scope limited to Kraft pulping which is the dominant pulping process worldwide. The mass transfer usually occurs in various processes that deal with reactions, separation, and heat transfer. All these aforementioned processes occur in the production of pulp and paper from their raw materials. The application of mass transfer to these processes is of great importance in setting target yields, and specifications and improving efficiency. The major processes where mass transfer principles are applied are drying, chemical washing, pulp digestion and pulp bleaching respectively. Understanding the requirements and targets of each of these processes in combination with the mass transfer principles helps in the development of models and design of equipment that operate based on the developed models in meeting the required targets. Studies have indicated that mass and energy balances cannot be done independently in meeting the required targets and equipment design. The drying and stripping of lignocellulosic components of the feed-in paper manufacture constitute a large part of the challenges faced by the industry. Drying techniques have been considered to be inefficient, and lignocellulosic by-products are known to contain toxic components. Green chemistry production processes and newer drying techniques were indicated as possible solutions. It is expected that researchers and investors would find this article useful.

Published

2023

48. Insights into durability assessment for compacted soils treated with paper sludge ash-based stabilizers

Author

Navila Tabassum, Ryo Sekine, Kimitoshi Hayano, Binh Nguyen Phan, and Hiromoto Yamauchi

Subjects

Construction-generated soils, Paper sludge ash-based stabilizer, Dry-wet curing, Cone index, Maturity index, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

To utilize industrial by-products in construction projects, soil stabilization using paper sludge ash-based stabilizers (PSASs) has recently been developed. PSASs can be manufactured by insolubilizing the heavy metals in original paper sludge (PS) ash, which is a waste product emitted from paper mills. This study assessed the durability of clays treated with PSASs in wet-dry or dry-wet environments through various evaluation tests. Initially, the particle size distributions (PSDs) in the clays that had undergone various pretreatments were assessed. Then, unconfined compression tests were performed on the treated clays that had undergone dry and wet curing cycles using demolded specimens. Finally, cone index tests were carried out on the treated clays that had undergone dry and wet curing cycles while the samples were constrained in molds. Based on the test results, the durability assessment of the clays treated with PSASs was discussed, considering the specifics of each evaluation test and contrasting the findings with those obtained for clays treated with cement. The generated PSDs were found to contain more fine particles as the time spent washing the samples prior to sieving was increased. The findings indicated that PSAS-treated clays will eventually become muddy, even though it is unlikely that these treated clays will ever be subjected to washing with water while being stirred after construction. The unconfined compression test results also demonstrated that, after several dry-wet cycles, the strength of the PSAS-treated specimens had decreased. It was revealed that clays treated with PSASs might be less resistant to dry-wet curing cycles than those treated with cement. However, PSAS-treated samples using unconfined compression test specimens are still being investigated and are a topic of debate because the strength development mechanisms of PSASs and cement are not similar. To address this issue, a series of cone index tests were conducted on samples treated with PSASs to examine the change in strength caused by the dry-wet curing process. The results of the cone index tests were different from those of the unconfined compression tests. The cone index test results revealed that the samples must be constrained during the assessment tests in order to assess the durability of PSAS-treated soils subjected to dry-wet curing. In addition, it was proposed in this study that the idea of maturity would be applicable to PSAS-treated soils with a range of curing temperatures and curing times as long as the soils were constrained during the assessment tests.

Published

2023

49. Supramolecular systems based on chitosan and chemically functionalized nanocelluloses as protective and reinforcing fillers of paper structure

Author

Lorenzo Lisuzzo, Giuseppe Cavallaro, Giuseppe Lazzara, and Stefana Milioto

Subjects

Nanocellulose, Chitosan, Electrostatic Interactions, ITC, Paper consolidation, Biochemistry, QD415-436

Abstract

Supramolecular systems based on chitosan and cellulose nanofibers (CNFs) with a different surface modification (TEMPO-oxidation and carboxymethylation) were investigated and utilized for the functional consolidation of paper. Prior to the paper consolidation, the interactions between chitosan and CNFs dispersed in aqueous solvent were studied. It was detected that the peculiar surface functionalization of nanocellulose is crucial to control the chitosan/CNFs electrostatic attractions and, consequently, the entropic/enthalpic contributions and the stoichiometry of the biopolymer adsorption onto the cellulose nanofibers. Dynamic Light Scattering and rheological experiments revealed that the presence of biopolymeric chains on the CNFs surface favors the entanglement and the aggregation between the nanofibers reinforcing their network. It was observed that chitosan and nanocellulose exhibit synergetic effects on the paper consolidation in terms of reinforcing action, surface hydrophobization and enhancement of the fire-resistance. In conclusion, this paper demonstrates that the electrostatic interactions between chitosan and functionalized nanocellulose drive the formation of hybrid fillers suitable for paper consolidation. Chitosan coated CNFs possess an improved capacity to penetrate the paper structure causing an enhancement of the mechanical resistance and surface hydrophobization. Moreover, chitosan/CNFs create a protective barrier for heat transfer that prevents the paper combustion.

Published

2023

50. Comparison of the responses of cross-sectional web- and paper-based surveys on lifestyle behaviors of Japanese adolescents

Author

Yuichiro Otsuka, Aya Kinjo, Yoshitaka Kaneita, Osamu Itani, Yuki Kuwabara, Ruriko Minobe, Hitoshi Maesato, Susumu Higuchi, Hideyuki Kanda, Hisashi Yoshimoto, Maki Jike, Hideaki Kasuga, Teruna Ito, and Yoneatsu Osaki

Subjects

Adolescent, Japan, Response rate, Web-based survey, Paper-based survey, Smoking, Medicine

Abstract

Objective: In Japan, paper-based surveys are currently more effective than web-based surveys. This study compared the response rates and lifestyle behaviors between paper- and web-based surveys conducted among Japanese junior and senior high schools. Methods: In total, there were 42 and 64 junior and senior high schools, respectively, for the web-based surveys and 20 and 27 junior and senior high schools, respectively, for the paper-based surveys. The questionnaire covered lifestyle behaviors (e.g., alcohol consumption, smoking, exercise, eating, and sleep status), mental health, and plans to attend college. School- and student-level response rates by survey method were assessed, and so was the effect on the reporting of each lifestyle behavior using logistic regression models. Results: The school response rates were 16.0% and 38.3% for web- and paper-based surveys, respectively. The student response rates were 88.7% and 77.2%, respectively. The web-based group had significantly more female participants and lower response rates for higher grades in senior high schools. The odds of lifetime and current alcohol consumption and poor mental health were lower, whereas those of lifetime use of conventional cigarettes, shorter sleep duration, and plans to continue attending college were higher among web-based (vs. paper-based) participants. Conclusions: The school response rate was poor in the web-based survey. However, whether the differences in lifestyle behavior are attributed to selection bias or the survey method remains unclear.

Published

2023