Showing total 21,090,555 results

51. Hokuetsu Corp SWOT Analysis.

Published

2024

52. Quantification of the Influence of Ink Penetration and Optical Ink Density on the Print-through of Printed Straw-Based Papers.

Author

Bates, Irena, Plazonić, Ivana, Rudolf, Maja, and Bratić, Diana

Subjects

TRITICALE, OPACITY (Optics), WHEAT straw, MULTIPLE regression analysis, AGRICULTURAL wastes, PHASE coding, RECYCLED paper, REGRESSION analysis

Abstract

In recent years, due to environmental awareness regarding the harmfulness of polymeric materials, there has been a growing interest in using papers, especially those from alternative raw materials. The importance of using all available raw materials is imperative today. Raw materials that were once viewed as waste are now of great importance because they have the ability to replace raw materials that are used irrationally or are lacking. Cereal straw is a lignocellulosic material that could be used in the paper industry and in the production of increasingly prevalent paper packaging. The aim of this research was to analyze the relationships between the qualitative parameters of straw-based printed papers containing 30% agricultural residues (wheat, barley, or triticale). The influence of two qualitative parameters (ink penetration depth and optical ink density) on the print-through was observed using multiple regression analysis on straw-based papers produced at the laboratory level. Throughout the research, 100% recycled wood paper was used as a reference sample. The results of the regression analysis showed that none of the variables individually make a statistically significant contribution to the prediction of the dependent variable in a linear context, that is, they indicate a non-linear interaction between the variables and the specific conditions under which the dependent variable reaches local extremes and changes in the gradient. Considering the results of the regression analysis and the visualization of the relationship, the model was additionally tested with other independent variables (paper type). From the results obtained, it can be concluded that the alternative straw-based paper with 30% barley pulp has the best interaction between ink and paper, which is the most similar to the reference sample in terms of printability, while the alternative straw-based paper with 30% wheat generally differs significantly from the reference paper when all three prints are considered. [ABSTRACT FROM AUTHOR]

Published

2024

53. Tangible document sharing: handing over paper documents across a videoconferencing display.

Author

Kazuaki Tanaka, Kentaro Oshiro, Naomi Yamashita, Hideyuki Nakanishi, Arntz, Alexander, and Grønbæk, Jens Emil

Subjects

VIDEOCONFERENCING, DIGITAL images, TELECONFERENCING, DOCUMENT imaging systems, SHARING, ELECTRONIC records, INFORMATION sharing

Abstract

Conventional techniques for sharing paper documents in teleconferencing tend to introduce two inconsistencies: 1) media inconsistency: a paper document is converted into a digital image on the remote site; 2) space inconsistency: a workspace deliberately inverts the partner's handwriting to make a document easy to read. In this paper, we present a novel system that eliminates these inconsistencies. The media and space inconsistencies are resolved by reproducing a real paper document on a remote site and allowing a user to handover the paper document to a remote partner across a videoconferencing display. From a series of experiments, we found that reproducing a real paper document contributes to a higher sense of information sharing. We also found that handing over a document enhances a sense of space sharing, regardless of whether the document is digital or paper-based. These findings provide insights into designing systems for sharing paper documents across distances. [ABSTRACT FROM AUTHOR]

Published

2024

54. How do authors' perceptions of their papers compare with co-authors' perceptions and peer-review decisions?

Author

Rastogi, Charvi, Stelmakh, Ivan, Beygelzimer, Alina, Dauphin, Yann N., Liang, Percy, Wortman Vaughan, Jennifer, Xue, Zhenyu, Daumé III, Hal, Pierson, Emma, and Shah, Nihar B.

Subjects

COMPUTER science conferences, MALE authors, AUTHORSHIP collaboration

Abstract

How do author perceptions match up to the outcomes of the peer-review process and perceptions of others? In a top-tier computer science conference (NeurIPS 2021) with more than 23,000 submitting authors and 9,000 submitted papers, we surveyed the authors on three questions: (i) their predicted probability of acceptance for each of their papers, (ii) their perceived ranking of their own papers based on scientific contribution, and (iii) the change in their perception about their own papers after seeing the reviews. The salient results are: (1) Authors had roughly a three-fold overestimate of the acceptance probability of their papers: The median prediction was 70% for an approximately 25% acceptance rate. (2) Female authors exhibited a marginally higher (statistically significant) miscalibration than male authors; predictions of authors invited to serve as meta-reviewers or reviewers were similarly calibrated, but better than authors who were not invited to review. (3) Authors' relative ranking of scientific contribution of two submissions they made generally agreed with their predicted acceptance probabilities (93% agreement), but there was a notable 7% responses where authors predicted a worse outcome for their better paper. (4) The author-provided rankings disagreed with the peer-review decisions about a third of the time; when co-authors ranked their jointly authored papers, co-authors disagreed at a similar rate—about a third of the time. (5) At least 30% of respondents of both accepted and rejected papers said that their perception of their own paper improved after the review process. The stakeholders in peer review should take these findings into account in setting their expectations from peer review. [ABSTRACT FROM AUTHOR]

Published

2024

55. Sustainable utilization of calcined sugarcane mud waste as nanofiller for fine paper production.

Author

Abdelatif, Youssef, Gaber, Abdel-Aal M., Fouda, Abd El-Aziz S., and Elsokkary, Tarek

Abstract

Improving paper characteristics through natural and cost-effective fillers is a massive issue in the paper industry. In the process of manufacturing paper, inorganic and organic fillers are utilized. Organic fillers are only appropriate for specific applications, and their expensive cost has limited their use. Here, various concentrations of sugarcane press mud (SPM) waste were applied to obtain pure calcium oxide nanoparticles (CaONPs) after the calcination to use as a potential filler in the papermaking by mixing the CaONPs at various ratios (5, 10, 15, and 20%), and paper properties have been investigated. Transmission electron microscopy (TEM), selected area electron diffraction (SAED), scanning electron microscope (SEM), and energy-dispersive X-ray spectroscopy (EDX) were utilized to characterize the CaONPs produced. The finding reveals that the influence of nano CaO fillers filled at different ratios (5, 10, 15, and 20%) on tensile, tear index, porosity, and smoothness was slowly decreased when increasing the content of nano filler to 35.9, 55.0, 565.7, and 260.3 at (0%) decrease to 30.7, 42.4, 381.6, and 188.4 at (20%), respectively. Also, opacity and brightness were increased from 93.0 and 71.7 at (0%) to 99.0 and 72.3 at (20%), respectively. The previous results revealed that the CaONPs at (20%) represent the optimal owing to the small particle size of CaONPs is satisfactory for provoking the prosperities of paper. [ABSTRACT FROM AUTHOR]

Published

2024

56. Recycled toilet paper sensitizers, a novel source of contamination in rivers.

Author

Yoshinari, Yuta and Terasaki, Masanori

Subjects

TOILET paper, RECYCLED paper, SEWAGE disposal plants, SEWAGE, CHEMOTAXONOMY, SEWAGE purification, FOOD aroma

Abstract

Sensitizers are used to prepare photosensitive materials for ink-printing and thermal-recording media. Typical sensitizers contain an aromatic ring and exhibit aryl hydrocarbon receptor-mediated activity. They can accumulate in aquatic biota, leading to the disruption of ecosystems. Effluent from paper recycling plants has been identified as a source of contamination, and the presence of sensitizers in toilet paper may represent a new source of contamination in aquatic environments. To examine possible sources of contamination by sensitizers, this study investigated the levels of sensitizers in recycled toilet paper. We also studied the prevalence of sensitizers in rivers receiving effluents from sewage treatment plants in Japan, from 2020 to 2022. We detected eight sensitizers and related compounds in both toilet paper and river water samples; their total concentrations ranged from 0.78 to 34 µg/g (mean: 12 µg/g) in toilet paper and 58–1167 µg/L (median: 77 µg/L) in water. In the water samples, sensitizers were partitioned between liquid and suspended solid phases, and in suspended solids, sensitizers accounted for an average of 42% of the total. Correlation analysis showed a high correlation between sensitizer composition in the water from a river receiving sewage treatment plant effluents and toilet paper. Since these compounds were also detected in the river water analyzed in this study, toilet paper should be considered a novel source of sensitizers contamination in sewage treatment systems. [ABSTRACT FROM AUTHOR]

Published

2024

57. Holocellulose fibers and paper from birch based on peracetic acid treatment.

Author

Tao, Shenming, Chen, Yian, Qin, Shaoliu, Zhang, Cunzhi, and Qi, Haisong

Subjects

PERACETIC acid, CELLULOSE fibers, FIBERS, BIRCH, TENSILE strength, LEAD time (Supply chain management)

Abstract

Holocellulose fibers provide great potential to make paper with high performance. However, inappropriate reaction conditions may limit its improvement in paper performance due to the lack of sufficient research data. In this work, paper is prepared from the birch holocellulose fibers based on peracetic acid treatment and the papermaking process. The features of resulting holocellulose fibers are evaluated for different peracetic acid treatment conditions such as temperature and time. It reveals that high temperature and long treatment time lead to the degradation of hemicellulose/cellulose and the destruction of fibers, which further results in the poor mechanical performance of paper. By optimization for the treatment condition of holocellulose fibers, the corresponding paper exhibits the highest tensile strength (93 MPa), good bursting strength (601 kPa), and tearing strength (647 mN). The determination of optimum conditions will provide guidelines for the industrial production of holocellulose fibers and paper. [ABSTRACT FROM AUTHOR]

Published

2024

58. The Case of the Missing Paper: A Play in One Act.

Author

Kinsley, Claire Huang

Subjects

LEARNING, LITERACY education, DRAMA, RESEARCH papers (Students), EDUCATION

Abstract

The article explores the intersection of drama and academic learning, showcasing a playful narrative where a detective tackles the disappearance of a research paper on drama in literacy education. It mentions that this engaging storyline delves into the potential benefits of incorporating drama activities into education, highlighting the positive impact on literacy outcomes.

Published

2024

59. Highly Sensitive Paper-Based Force Sensors with Natural Micro-Nanostructure Sensitive Element.

Author

Zhang, Haozhe, Ren, Yuyu, Zhu, Junwen, Jia, Yanshen, Liu, Qiang, and Yang, Xing

Subjects

CAPACITIVE sensors, STRAIN sensors, PRESSURE sensors, DETECTORS, FRIENDSHIP

Abstract

Flexible paper-based force sensors have garnered significant attention for their important potential applications in healthcare wearables, portable electronics, etc. However, most studies have only used paper as the flexible substrate for sensors, not fully exploiting the potential of paper's micro-nanostructure for sensing. This article proposes a novel approach where paper serves both as the sensitive element and the flexible substrate of force sensors. Under external mechanical forces, the micro-nanostructure of the conductive-treated paper will change, leading to significant changes in the related electrical output and thus enabling sensing. To demonstrate the feasibility and universality of this new method, the article takes paper-based capacitive pressure sensors and paper-based resistive strain sensors as examples, detailing their fabrication processes, constructing sensing principle models based on the micro-nanostructure of paper materials, and testing their main sensing performance. For the capacitive paper-based pressure sensor, it achieves a high sensitivity of 1.623 kPa−1, a fast response time of 240 ms, and a minimum pressure resolution of 4.1 Pa. As for the resistive paper-based strain sensor, it achieves a high sensitivity of 72 and a fast response time of 300 ms. The proposed new method offers advantages such as high sensitivity, simplicity in the fabrication process, environmental friendliness, and cost-effectiveness, providing new insights into the research of flexible force sensors. [ABSTRACT FROM AUTHOR]

Published

2024

60. Functional Materials from Waste Paper. IV. Comparative Study of the Functional Composition, Supramolecular Structure, and Morphology of the Powder Celluloses Isolated from Waste Paper, Plant Celluloses, and Nonconventional Raw Materials.

Author

Mikhailidi, A. M., Markin, V. I., and Kotel'nikova, N. E.

Subjects

WASTE paper, RAW materials, CELLULOSE, NUCLEAR magnetic resonance spectroscopy, SCANNING electron microscopy, X-ray scattering, CELLULOSE fibers

Abstract

A comparative study of the supramolecular structure, physicochemical properties, and morphology of the powder celluloses (PCs) obtained from the waste paper of newsprint and cardboard, plant celluloses, and nonconventional raw materials was conducted using the methods of FT-IR spectroscopy, high-resolution solid-state 13C NMR spectroscopy, wide-angle X-ray scattering, and scanning electron microscopy (SEM). According to the FT-IR and 13C NMR spectroscopy results, the functional composition of the PCs is similar to that of the wood PCs and matches highly purified cellulose samples. The crystallographic structure of the powder samples corresponds to the structure of cellulose I. The crystallinity and the transverse dimensions of the crystallites are 39.4 and 40.2%, and 45 Å [110] and 54 Å [110], for the PCs from newsprint paper and cardboard, respectively. These values considerably exceed those for the initial waste paper samples. A comparative analysis of the SEM results showed a significant similarity among the PC fibers of different origin. The results of the study of the physicochemical properties of the PCs isolated from the waste paper allow predicting their competitive application in comparison with plant PCs. [ABSTRACT FROM AUTHOR]

Published

2023

61. Biotechnological Basis of the Pulp and Paper Industry Circular Economic System.

Author

Kvasha, Nadezhda, Bolotnikova, Olga, and Malevskaia-Malevich, Ekaterina

Subjects

PAPER industry, PAPER recycling, ECONOMIC systems, WASTE paper, SCIENTIFIC method, HETERODOX economics, BIOECONOMICS

Abstract

To ensure development sustainability, the linear economic approach is being transformed into a cyclical model. For the pulp and paper industry (PPI), which occupies a significant place in the Russian economy, the shift of circular principles to the field of bioeconomics is becoming more important. This requires the development of basic biotechnological approaches implemented in closed cycles (biorefining). The aim of this study was to develop the biotechnological foundations of the circular economic system of the pulp and paper industry. To achieve the goal, the factors for the implementation of the circular mechanism in the pulp and paper industry were established. The composition of pulp and paper waste was systematized, taking into account the places of their occurrence; the directions and forms of the biorefining of pulp and paper secondary renewable resources were determined; and the principal possibility of obtaining bioethanol, based on the whole complex of sugars from cellulose production wastes, is shown. A wide range of general scientific methods was involved (analysis, synthesis, classification, modeling, etc.). Statistical methods were used to process experimental results in the field of pulp and paper waste bioconversion. The biotechnologies involved included methods of destruction, detoxification, and conversion of useful resources into secondary raw materials and final products. From the standpoint of the environmental approach, there are serious efficiency imbalances in the pulp and paper industry, which justify the implementation of circular mechanisms for organizing economic systems. The overall efficiency is ensured by the use of renewable resources and obtaining environmental effects. Algorithms and parameters of green biotechnological regulations for pulp and paper industry waste recycling provide the possibility of microbiological production of a complex of products: biocomposites, bioplastics, medical products, fertilizers, feed additives, vitamin supplements, and bioenergy resources. A strategy for the efficient biochemical processing of pulp and paper waste into green ethanol was determined. The possibility of increasing the efficiency of alcoholic fermentation using various biocatalysts was experimentally confirmed. The technological features of this method, associated with the need for microaerobic fermentation modes, were determined. [ABSTRACT FROM AUTHOR]

Published

2023

62. Raw Materials of Chinese Traditional Handmade paper.

Author

Cheuk Kei Chan and Xiaohui Yi

Published

2023

63. Grain by-products and Saccharomyces cerevisiae application in paper packaging material: impact on physical–mechanical and barrier properties.

Author

Markevičiūtė, Zita, Lyytikäinen, Johanna, Leminen, Ville, and Varžinskas, Visvaldas

Subjects

PACKAGING materials, WHEAT bran, SACCHAROMYCES cerevisiae, FOOD packaging, AGRICULTURAL wastes

Abstract

Renewable materials and material circularity are key priorities for the coming decades. While paper is the most utilized material in the packaging sector, its applications in food packaging are limited due to low barrier properties. Coating it with petroleum-based polymer barrier coatings renders it unrecyclable both mechanically and biologically. Bio-coated paper packaging, made from agricultural waste or by-products, presents environmentally favorable solutions that can benefit the biological cycle of the circular economy. The main objective of this study is to assess the applicability of grain and beer production by-products in wood pulp food packaging materials. It examines the effects of different grain by-products (industrial wheat grain processing residues and wheat bran) particles and concentrations (15 wt% and 40 wt%), as well as the impact of brewer's yeast (Saccharomyces cerevisiae) at a concentration of 10 wt%, on the physical–mechanical and barrier properties of Northern bleached softwood kraft (NBSK) and chemithermomechanical (CTMP) pulps. Material composites were fabricated using a standard sheet forming method. Physical–mechanical properties were analyzed through tensile strength, strain at break, tear resistance, and bending stiffness tests. Barrier-related properties were analyzed through roughness, air permeance, and water contact angle tests. Results revealed that the vast majority of physical–mechanical properties decreased with the increase of both types of grain production fillers. Industrial wheat grain processing residues had a lower impact on physical–mechanical properties than wheat bran filler. A higher percentage of property decrease was absorbed in NBSK pulp than in CTMP. Roughness of CTMP can be improved by adding both industrial wheat grain processing residues and wheat bran. Wheat bran particles can increase hydrophobicity. CTMP pulp strength properties can be increased with the addition of yeast; however, the yeast additive's effect on air permeance demonstrated a negative impact. In the case of NBSK pulp, which has higher primary strength properties, the addition of yeast does not make any significant changes. The conducted experiments demonstrated that, overall, the addition of these fillers resulted in a decline in physical–mechanical properties such as tensile strength, strain at break, tear resistance, and bending stiffness. This decline was more pronounced with higher concentrations of fillers. In the case of CTMP pulp, both types of fillers exhibited similar trends in affecting properties, whereas for NBSK pulp, wheat bran had a more significant impact compared to wheat grain processing residues. The addition of yeast generally led to a reduction in physical–mechanical properties, particularly in tensile strength and tear resistance. However, samples containing yeast displayed increased flexibility compared to controls. The influence on barrier properties varied: while yeast increased air permeability, it also enhanced surface hydrophobicity, thereby reducing the paper's receptivity to liquids. [ABSTRACT FROM AUTHOR]

Published

2024

64. Preparation of superhydrophobic conductive micro/nano‐graphite/PDMS films on paper by simple spraying method.

Author

He, Qiang, Du, Zhicai, Jia, Yangyang, Liu, Yujie, Xu, Zehua, Xu, Yuan, and Li, Anling

Subjects

CHEMICAL stability, FILTER paper, SURFACE energy, ROLLING contact, METAL spraying, CONTACT angle, POLYDIMETHYLSILOXANE, GRAPHITE

Abstract

Paper‐based materials are widely used in various fields due to their advantages, such as environmental friendliness and sustainability. However, the highly hydrophilic nature of the cellulose that makes up paper‐based materials limits their use. In this paper, micron/nano‐graphite/polydimethylsiloxane (PDMS) coatings with excellent superhydrophobic and conductive properties were prepared on the surface of filter paper by a simple spraying method. A mixture of micro‐graphite and nano‐graphite was used to form a multistage rough structure on the surface of the filter paper by spraying, and the low surface energy PDMS enhanced the adhesion of the micro‐graphite and nano‐graphite on the surface of the filter paper. The results showed that the samples possessed the best superhydrophobic properties when the ratio of micro‐graphite to nano‐graphite was 1:1, at which time the contact and rolling angles of the samples were 165.4° and 3.2°, respectively. The prepared superhydrophobic samples have good bounce and self‐cleaning properties, while the samples have good mechanical stability and chemical resistance. Additionally, due to the conductivity of micro–nano‐graphite, both particle sizes closely contact the sample surface, creating a conductive network. With a 1:1 ratio of micro‐ and nano‐graphite, the coating exhibits minimal resistance at 1.89 KΩ, and the sample maintains stable conductivity even underwater. The above properties greatly extend the application range of paper‐based superhydrophobic materials. [ABSTRACT FROM AUTHOR]

Published

2024

65. Ethanol Production from a Mixture of Waste Tissue Paper and Food Waste through Saccharification and Mixed-Culture Fermentation.

Author

Ma, Hongzhi, Wang, Yueyao, Lv, Pin, Zhou, Jun, Gao, Ming, Qian, Dayi, Song, Bo, and Wang, Qunhui

Subjects

WASTE paper, FOOD waste, ETHANOL, FERMENTATION, SACCHAROMYCES cerevisiae, TEMPERATURE control

Abstract

This study focused on the co-fermentation of food waste and tissue paper to produce ethanol, which will eliminate the need for additional nitrogen sources and nutrients, thereby reducing production costs. In response to the inhibitory effect of the high concentrations of glucose present in mixed-substrate hydrolysates on xylose fermentation, a co-fermentation process using Saccharomyces cerevisiae and Candida shehatae was proposed. This approach reduced the fermentation time by 24 h, increased the xylose utilization rate to 88%, and improved the ethanol yield from 41% to 46.5%. The impact of external conditions and corresponding optimization were also analyzed in this process. The optimum conditions were a 1:3 ratio of Saccharomyces cerevisiae to Candida shehatae, a pH of 5, and shaking at 150 r/min, and by employing dynamic temperature control, the ethanol production was increased to 21.98 g/L. Compared to conventional processes that only use Saccharomyces cerevisiae, this method enhanced the ethanol yield from 41% to 49%. [ABSTRACT FROM AUTHOR]

Published

2024

66. Recent advances in eco-friendly technology for decontamination of pulp and paper mill industrial effluent: a review.

Author

Gupta, Guddu Kumar and Kapoor, Rajeev Kumar

Subjects

POLYCHLORINATED dibenzodioxins, INDUSTRIAL wastes, XENOBIOTICS, PAPER pulp, PULP mills, PAPER mills

Abstract

The economic development of a country directly depends upon industries. But this economic development should not be at the cost of our natural environment. A substantial amount of water is spent during paper production, creating water scarcity and generating wastewater. Therefore, the Pollution Control Board classifies this industry into red category. Water is used in different papermaking stages such as debarking, pulping or bleaching, washing, and finishing. The wastewater thus generated contains lignin and xenobiotic compounds such as resin acids, chlorinated lignin, phenols, furans, dioxins, chlorophenols, adsorbable organic halogens (AOX), extractable organic halogens (EOCs), polychlorinated biphenyls, plasticizers, and polychlorinated dibenzodioxins. Nowadays, several microorganisms are used in the detoxification of these hazardous effluents. Researchers have found that microbial degradation is the most promising treatment method to remove high biological oxygen demand (BOD) and chemical oxygen demand (COD) from wastewater. Microorganisms also remove AOX toxicity, chlorinated compounds, suspended solids, color, lignin, derivatives, etc. from the pulp and paper mill effluents. But in the current scenario, mill effluents are known to deteriorate the environment and therefore it is highly desirable to deploy advanced technologies for effluent treatment. This review summarizes the eco-friendly advanced treatment technologies for effluents generated from pulp and paper mills. [ABSTRACT FROM AUTHOR]

Published

2024

67. High enhancement, low cost, large area surface enhanced Raman scattering substrates all by atomic layer deposition on porous filter paper.

Author

Niu, Feng, Hu, Yimin, LeKarz, Stephen, and Lu, Wei

Subjects

SERS spectroscopy, ATOMIC layer deposition, FILTER paper, SURFACE plasmon resonance, RAMAN scattering, SURFACE area

Abstract

We successfully developed an atomic layer deposition (ALD) method for making Ag noble nanoparticles on cheap, commercial filter paper consisting of three-dimensional porous glass fibers and investigated the evolution of Ag nanostructures with some key process parameters. By tuning Ag particle sizes and controlling the cycle numbers of ALD deposited Ag films, we were able to obtain high-density isolated Ag nanoparticles with average sizes in 3–9 nm without the formation of agglomerates and continuous Ag films. We proved the presence of strong localized surface plasmon resonance peaks near a target wavelength of 632 nm. We further proved the presence of surface enhanced Raman scattering (SERS) signals on the Ag coated filter paper substrates using pyridine as the test analyte. Our results demonstrate that ALD is a very promising technique for a rational design of SERS substrates and, thus, has great potential for the fabrication of large-area, low-cost SERS substrates for future commercial applications, as compared to other existing techniques. [ABSTRACT FROM AUTHOR]

Published

2024

68. Improving the Physical and Mechanical Properties of Mycelium-Based Green Composites Using Paper Waste.

Author

Teeraphantuvat, Thana, Jatuwong, Kritsana, Jinanukul, Praween, Thamjaree, Wandee, Lumyong, Saisamorn, and Aiduang, Worawoot

Subjects

WASTE paper, WOOD waste, LIGNOCELLULOSE, PACKAGING materials, IMPACT strength, TENSILE strength

Abstract

The growing demand for environmentally friendly and sustainable materials has led to the invention of innovative solutions aiming to reduce negative impacts on the environment. Mycelium-based green composites (MBCs) have become an alternative to traditional materials due to their biodegradability and various potential uses. Although MBCs are accepted as modern materials, there are concerns related to some of their physical and mechanical properties that might have limitations when they are used. This study investigates the effects of using paper waste to improve MBC properties. In this study, we investigated the physical and mechanical properties of MBCs produced from lignocellulosic materials (corn husk and sawdust) and mushroom mycelia of the genus Lentinus sajor-caju TBRC 6266, with varying amounts of paper waste added. Adding paper waste increases the density of MBCs. Incorporating 20% paper waste into corn husks led to the enhancement of the compression, bending, and impact strength of MBCs by over 20%. Additionally, it was also found that the MBCs produced from corn husk and 10% paper waste could help in reducing the amount of water absorbed into the material. Adding paper waste to sawdust did not improve MBC properties. At the same time, some properties of MBCs, such as low tensile strength and high shrinkage, might need to be further improved in the future to unlock their full potential, for which there are many interesting approaches. Moreover, the research findings presented in this publication provide a wealth of insightful information on the possibility of using paper waste to improve MBC performance and expand their suitability for a range of applications in sustainable packaging materials and various home decorative items. This innovative approach not only promotes the efficient utilization of lignocellulosic biomass but also contributes to the development of environmentally friendly and biodegradable alternatives to traditional materials. [ABSTRACT FROM AUTHOR]

Published

2024

69. A review of recent infrared spectroscopy research for paper.

Author

Xia, Jingjing, Xiong, Yanmei, Min, Shungeng, and Li, Jinyao

Subjects

INFRARED spectroscopy, MID-infrared spectroscopy, PAPER pulp, DOCUMENT imaging systems, CHEMICAL properties, TECHNICAL reports

Abstract

For many centuries, paper is the main material for recording cultural achievements all over the world. Infrared (IR) spectroscopy is an essential analytical tool for the structural analysis of paper and pulp chemistry. This review article introduced recent technical and scientific reports in terms of IR spectroscopy in the paper science and application, where interest had increased during the last couple decades (2000–2022). Five parts were described according to the application of IR spectroscopy: the analysis of cellulose and its derivatives, estimation the date of documents, identification the origins of fiber or paper, specification the chemical and physical properties of paper, and characterization the new materials of paper. [ABSTRACT FROM AUTHOR]

Published

2023

70. Clearwater Paper Corp SWOT Analysis.

Published

2024

71. Nippon Paper Industries Co., Ltd. SWOT Analysis.

Subjects

PAPER industry, SWOT analysis

Abstract

A SWOT analysis of Nippon Paper Industries Company Limited is presented.

Published

2023

72. Longchen Paper & Packaging Co., Ltd. SWOT Analysis.

Published

2023

73. On paper characterisation of droplet and evaporation study using impedance spectroscopy.

Author

Siva Prakasam, O. Kare, Basu, Akashlina, Chaudhury, Koel, and Das, Soumen

Published

2024

74. Determination of per- and polyfluoroalkyl compounds in paper recycling grades using ultra-high-performance liquid chromatography–high-resolution mass spectrometry.

Author

Mofokeng, Nondumiso Nomonde, Madikizela, Lawrence Mzukisi, Tiggelman, Ineke, Sanganyado, Edmond, and Chimuka, Luke

Subjects

PAPER recycling, LIQUID chromatography-mass spectrometry, RECYCLED paper, MASS spectrometry, FLUOROALKYL compounds, SOLID phase extraction, SOLVENT extraction

Abstract

Globally, per- and polyfluoroalkyl substances (PFAS)–related research on paper products has focused on food packaging with less consideration on the presence of PFAS at different stages of the paper recycling chain. This study analysed the prevalence of PFAS in paper grades used for the manufacture of recycled paperboard. The presence of PFAS was attributed to the use of PFAS-containing additives, consumer usage, exposure to packed goods as well as contamination during mingling, sorting, collection, and recovery of paper recycling material. Q Orbitrap mass spectrometry was used to analyse the paper samples after accelerated solvent extraction and solid phase extraction. The distribution and possible propagation of 22 PFAS were determined in pre-consumer, retail and post-consumer paper products. Post-consumer samples had the highest combined average concentration (ΣPFAS) at 213 ng/g, while the ΣPFAS in retail (159 ng/g) and pre-consumer samples (121 ng/g) was detected at lower concentrations. This study showed that waste collection and recycling protocols may influence PFAS propagation and that measures must be developed to minimise and possibly eliminate exposure opportunities. [ABSTRACT FROM AUTHOR]

Published

2024

75. Detoxification of Real Pulp and Paper Industry Wastewater via Sunlight-Assisted Dual Technology Employing Waste Driven Composite: A Parametric Optimization and Statistical Analysis.

Author

Puri, Sonali and Verma, Anoop

Subjects

PAPER industry, HYBRID systems, SEWAGE, COLOR removal in water purification, STATISTICS, CIRCULAR economy

Abstract

Using industrial waste-driven Fe-TiO2 composite, this study focuses on the removal of color remaining in secondary treated effluent from the pulp and paper industry. This composite facilitated a hybrid system of photocatalysis and photo-Fenton for the treatment of real industry wastewater. The catalyst performance was evaluated in terms of durability, quantum yield, and several other factors. The hybrid, photocatalysis, and photo-Fenton process have a quantum yield of 0.184 × 10−15, 0.00071 × 10−15, and 0.00044 × 10−15, respectively. With more quantum yield, the first-order rate constant (k) of the hybrid process was 16–24 times higher than the individual processes. The optimized values for this system came out to be pH = 4.3, H2O2 dose = 587 mg L−1, % surface area covered = 91.4%, and time = 60 min. A significant color and COD reduction of 89% and 60%, i.e., it got reduced from 400 to 160 mg/L, respectively, was observed for these optimized parameters. The Fe-TiO2 composite showed its efficacy to retain its hybrid nature even after 50 recycles as only a 5–10% reduction in efficiency (in terms of color and COD reduction) was observed. The results of the present study show the potential of composite fabricated from waste for effective color and COD removal in very less time, implying that the technique with reactor modifications can opt as a tertiary treatment in real-life applications. [ABSTRACT FROM AUTHOR]

Published

2024

76. Construction of cellulose nanofiber-Ti3C2Tx MXene/silver nanowire nanocomposite papers with gradient structure for efficient electromagnetic interference shielding.

Author

Zhao, Yao, Miao, Baoji, Nawaz, Muhammad Asif, Zhu, Qingsong, Chen, Qiuling, Reina, Tomas Ramirez, Bai, Jinbo, He, Delong, Al-Tahan, Mohammed A., and Arsalan, Muhammad

Published

2024

77. Fake paper identification in the pool of withdrawn and rejected manuscripts submitted to Naunyn–Schmiedeberg's Archives of Pharmacology.

Author

Wittau, Jonathan, Celik, Serkan, Kacprowski, Tim, Deserno, Thomas M., and Seifert, Roland

Subjects

ACQUISITION of manuscripts, PHARMACOLOGY, PAPER mills, ARCHIVES, FRAUD in science

Abstract

Honesty of publications is fundamental in science. Unfortunately, science has an increasing fake paper problem with multiple cases having surfaced in recent years, even in renowned journals. There are companies, the so-called paper mills, which professionally fake research data and papers. However, there is no easy way to systematically identify these papers. Here, we show that scanning for exchanged authors in resubmissions is a simple approach to detect potential fake papers. We investigated 2056 withdrawn or rejected submissions to Naunyn–Schmiedeberg's Archives of Pharmacology (NSAP), 952 of which were subsequently published in other journals. In six cases, the stated authors of the final publications differed by more than two thirds from those named in the submission to NSAP. In four cases, they differed completely. Our results reveal that paper mills take advantage of the fact that journals are unaware of submissions to other journals. Consequently, papers can be submitted multiple times (even simultaneously), and authors can be replaced if they withdraw from their purchased authorship. We suggest that publishers collaborate with each other by sharing titles, authors, and abstracts of their submissions. Doing so would allow the detection of suspicious changes in the authorship of submitted and already published papers. Independently of such collaboration across publishers, every scientific journal can make an important contribution to the integrity of the scientific record by analyzing its own pool of withdrawn and rejected papers versus published papers according to the simple algorithm proposed in the present paper. [ABSTRACT FROM AUTHOR]

Published

2024

78. Hybrid nanogels and their roles in eliminating soot stains from historical paper manuscripts.

Author

Abdel-Hamied, Mostafa, Hassan, Haidi Mahmoud, Mohamed, Yassmine Adel, Ismail, Mai Emad Moustafa, Farid, Yara, Mohamed, Hager, Ismail, Sameh H., Salem, Mohamed Z. M., and Hassan, Rushdya Rabee Ali

Subjects

SOOT, NANOGELS, DISCOLORATION, ZETA potential, X-ray diffraction

Abstract

Soot stain from diverse sources is the most common stain that stains historical paper documents found in libraries, museums, and storage facilities. It is believed to be one of the types of deterioration that arises from the contact between stains and paper sheets. Therefore, in the present work, the effectiveness of the synthesized hybrid nanogel consisting of carbopol and nanoparticles (NPs) of ZnO, TiO2, or Fe3O4, in low and high-viscosity forms, for eliminating soot stains from historical paper manuscripts was conducted. The prepared hybrid nanogels were characterized utilizing the TEM, AFM, XRD, DLS, and Zeta Potential techniques. Following preparation, the soot-stained paper samples were heated to 105 °C for 6 days, a process known as accelerated thermal aging. Surface morphology, mechanical properties and the color change of the paper samples were investigated. The prepared hybrid nanogel had a spherical shape with well-defined edges and uniform size, with an average particle diameter ranging from 30 to 35 nm. There was no significant NPs agglomeration seen, suggesting uniform dispersion in the carbopol matrix. Additionally, the prepared gels' crystal structure and phase purity were revealed by the XRD analysis results. Paper fibers were visible in some parts of the treated sample with TiO2/carbopol hybrid nanogel at high-viscosity before aging. Cleaning soot-stained paper samples using high-viscosity Fe3O4/carbopol hybrid nanogel is more successful than using low-viscosity nanogel. the sample treated with high-viscosity ZnONPs/carbopol hybrid nanogel produced the highest total color differences (ΔE) (26.17). The paper sample treated with high-viscosity ZnO/carbopol hybrid nanogel exhibited the maximum tensile strength (61.8 N/mm2) and elongation at break (1.174%). The evaluation of the paper samples both before and after the cleaning process revealed that, the treatment with high-viscosity ZnO/carbopol hybrid nanogel gave the best results in removing soot stains from stained paper samples. [ABSTRACT FROM AUTHOR]

Published

2024

79. Production of derivatives from wheat straw as reinforcement material for paper produced from secondary fibers.

Author

Serrano, Iciar, Afailal, Zainab, Sánchez-Paniagua, Naiara, González, Pablo, Bautista, Ana, Gil-Lalaguna, Noemí, Gonzalo, Alberto, Arauzo, Jesús, Crespo, Cristina, and Sánchez, Jose Luís

Subjects

WHEAT straw, CELLULOSE fibers, AGRICULTURAL wastes, FIBERS, PAPER recycling, RECYCLED paper, RAW materials

Abstract

Nowadays, a high percentage (> 50%) of the paper produced in Europe uses recovered paper (secondary fibers) as raw material. In order to improve the mechanical properties of the paper produced, different kinds of additives are usually incorporated into the paper. Emerging renewable materials based on agricultural or forest residues, such as cellulose nanomaterials, have recently proved good capacities as reinforcing agents for different applications. In this work, pulp from wheat straw with a content of cellulose nanomaterial has been produced and tested as a mechanical reinforcing agent for paper production. A soda semi-chemical process was applied for the delignification of straw, to produce pulp with high cellulose content. Posteriorly, pulps with cellulose nanofibers were obtained in a high-pressure homogenizer, applying three different pretreatments to the cellulose pulp (acid hydrolysis, enzymatic hydrolysis and thermal treatment with glycerol) in order to facilitate the obtention of cellulose nanomaterial. Handsheets of paper were prepared from two sources of secondary fiber (fluting paper and old corrugated containers), adding different percentages of wheat straw derivatives (0, 3.5, 5 and 7%). The fibers' morphology and the papers' mechanical properties were investigated. Noticeable improvement rates (up to 25%) were observed for some mechanical properties of paper containing nanocellulose produced after the enzymatic and acid pretreatments. The quality of the secondary fibers source also affected the improvement rates achieved, with higher percentage changes for the lower-quality recycled paper. [ABSTRACT FROM AUTHOR]

Published

2024

80. Enhancing Hydrophobic Properties in Olive Oil-Coated Papers through Thermal Treatment.

Author

Loesch-Zhang, Amelia, Meckel, Tobias, Biesalski, Markus, and Geissler, Andreas

Subjects

CONTACT angle, VEGETABLE storage, OLIVE oil, CHEMICAL reactions, VEGETABLE oils, OLIVE

Abstract

Enhancing paper hydrophobicity is of key importance for many paper-based applications. Fatty acids or vegetable oils and their derivatives replace environmentally harmful conventional coating materials but still require challenging chemical reactions for covalent attachment onto paper. Here, we show that simple storage of olive oil-coated cotton linter paper at 70 °C and subsequent Soxhlet extraction is able to endow paper with hydrophobic properties, reaching water contact angles above 130°. In-depth chemical and morphological analytics show the relevance of temperature and air accessibility during the aging process compared with aging at ambient temperature and under the exclusion of oxygen, underlining the importance of assessing a coating's long-term performance and stability under diverse storage conditions. Simple storage of vegetable oil-coated paper at elevated temperatures followed by extraction proves to be an easy way to produce stable covalently attached hydrophobic paper coatings with exceptionally low coating amounts. [ABSTRACT FROM AUTHOR]

Published

2024

81. Cold plasma‐induced N, Cu‐doping on carbon paper for high‐active catalytic electrode preparation.

Author

Yue, Xufeng, Xiang, Hongyu, Zhang, Peng, Shu, Song, Zhao, Yingxin, Zhang, Jiacheng, Liu, Jinwei, and Yu, Deping

Subjects

CARBON paper, LOW temperature plasmas, ELECTRODES, COLLISIONS (Nuclear physics), PHYSISORPTION, CARBON nanofibers, PHYSIOLOGICAL effects of cold temperatures

Abstract

Carbon paper is commonly used for catalytic electrode preparation because of its high conductivity, corrosion resistance, and stability. However, traditional electrode preparation methods are inappropriate for highly hydrophobic carbon paper. In this paper, a high‐activity carbon paper catalytic electrode was prepared using multistrategies cold plasma modification to create atomic structural defects, dope N and Cu elements, and introduce oxygen‐containing functional groups. Analyses show that the bombardment of high‐energy particles caused atomic structural defects. Nitrogen and copper entered the carbon paper through plasma‐induced chemical recombination and physical adsorption, reaching 5.26% and 3.83%, respectively. Ethanol‐based plasma introduced oxygen‐containing functional groups to improve hydrophilicity. Finally, the plasma‐prepared electrode exhibited a reduction efficiency of 87.69% in an electrocatalytic nitrate reduction reaction. [ABSTRACT FROM AUTHOR]

Published

2024

82. Fabrication of negative magnetostrictive Japanese traditional paper (washi) with cobalt ferrite particles.

Author

Kurita, Hiroki, Rova, Lovisa, Keino, Takumi, and Narita, Fumio

Subjects

MAGNETOSTRICTION, FERRITES, COBALT, JAPANESE language, WOOD-pulp, CELLULOSE fibers, MAGNETIC particles

Abstract

The cellulose fibers that form washi are longer than those of regular paper made from wood pulp. Hence, the mechanical properties of washi can be higher than those of conventional paper. This study evaluated the magnetic, magnetostrictive, and tensile properties of negative magnetostrictive cobalt ferrite (CoFe2O4) particle dispersed handmade washi (washi−CoFe2O4). The CoFe2O4 additives magnetized the washi, which displayed negative magnetostriction with the fiber direction perpendicular to the magnetic field and in the parallel fiber direction. Concerning the mechanical properties, the washi−CoFe2O4 displayed an elongation of up to 77% after yielding. [ABSTRACT FROM AUTHOR]

Published

2023

83. The Surface Modification of Papers Using Laser Processing towards Applications.

Author

Dudek, Mariusz, Sąsiadek-Andrzejczak, Elżbieta, Jaszczak-Kuligowska, Malwina, Rokita, Bożena, and Kozicki, Marek

Subjects

OPTICAL brighteners, LASERS, SCANNING electron microscopy, RAMAN spectroscopy, PAPER products, CONFOCAL microscopy

Abstract

This work presents the results of paper laser processing. It begins with the selection and examination of the processing parameters, then an examination of the properties of the modified papers and examples of applications of the developed modification method. The properties of laser-modified paper were studied using reflectance spectrophotometry to examine the colour aspects of the modified papers, scanning electron microscopy (SEM) and confocal microscopy for a morphological analysis, and Raman spectroscopy to analyse the papers under the influence of laser light. The influence of laser processing on the wettability of paper and the evenness of unprinted and printed paper was also investigated. The knowledge gained on paper surface modification with laser light was used to propose several applications, such as methods of marking, tactile detection, the controlled removal of optical brightener, ink, and metallised coatings from paper packaging, highlighting the design and aesthetics of paper. The developed laser-assisted method shows a promising, ecological approach to the design of many value-added paper products. [ABSTRACT FROM AUTHOR]

Published

2023

84. The handmade blue paper project: Application of experimental archaeology methods to study the materiality of Dutch blue paper (1650-1750).

Author

Sauvage, Leila and Marie-Noëlle, Grison

Subjects

EXPERIMENTAL archaeology, PAPERMAKING, PAPER mills, LOGWOOD, INDIGO

Abstract

This essay explores the materiality of Dutch blue paper (1650-1750), describing the methodology developed at the Moulin du Verger papermill (France). Starting from the visual examination of blue paper objects housed in the Rijksmuseum and the study of written sources, the group of researchers based their experiments at this 16th-century mill, equipped with traditional papermaking stampers, a Hollander cylinder and an immense drying loft. The experiments involved the dyeing and preparation of linen fibres with woad and indigo. The study of written sources revealed how scholars, traders and artists described "Dutch blue paper" and how it compared with its Venetian predecessor. The access to new raw materials (cotton, indigo, logwood) broadened the range of possibilities, while the introduction of the Hollander beater (ca. 1673) improved considerably the efficiency of Dutch papermakers who were able to produce faster and in greater quantity. [ABSTRACT FROM AUTHOR]

Published

2023

85. A paper stick test kit for rapid detection of total microbial contaminants in fresh milk.

Author

Misgiyarta and Budiyanto, Agus

Published

2023

86. The Beauty in Paper Cuts.

Author

Laufersweiler, Stefanie

Subjects

FEMININE identity, ART, FASHION designers, BLACK history, PAPER arts

Abstract

Janelle Washington, a former fashion designer, discovered her passion for paper cutting when she participated in a project show-and-tell at her office. She quickly became fascinated with the art form and joined the Guild of American Papercutters to learn more. Washington found inspiration in Black history and culture, incorporating themes of identity and feminine beauty into her intricate paper-cut designs. She now runs her own fine art paper-cutting business and has had her work featured in prestigious institutions and publications. Washington's art stands out in the paper-cutting community for its unique perspective and storytelling. [Extracted from the article]

Published

2024

87. Office paper and laser printing: a versatile and affordable approach for fabricating paper-based analytical devices with multimodal detection capabilities.

Author

Sousa, Lucas R., Guinati, Barbara G. S., Maciel, Lanaia I. L., Baldo, Thaisa A., Duarte, Lucas C., Takeuchi, Regina M., Faria, Ronaldo C., Vaz, Boniek G., Paixão, Thiago R. L. C., and Coltro, Wendell K. T.

Subjects

LASER printing, PRINTMAKING, PROSTATE-specific antigen, ELECTROCHEMICAL analysis, ELECTROSPRAY ionization mass spectrometry, IRON, PHOTOVOLTAIC power systems

Abstract

Multiple protocols have been reported to fabricate paper-based analytical devices (PADs). However, some of these techniques must be revised because of the instrumentation required. This paper describes a versatile and globally affordable method to fabricate PADs using office paper as a substrate and a laser printing technique to define hydrophobic barriers on paper surfaces. To demonstrate the feasibility of the alternatives proposed in this study, the fabrication of devices for three types of detection commonly associated with using PADs was demonstrated: colorimetric detection, electrochemical detection, and mass spectrometry associated with a paper-spray ionization (PSI-MS) technique. Besides that, an evaluation of the type of paper used and chemical modifications required on the substrate surface are also presented in this report. Overall, the developed protocol was suitable for using office paper as a substrate, and the laser printing technique as an efficient fabrication method when using this substrate is accessible at a resource-limited point-of-need. Target analytes were used as a proof of concept for these detection techniques. Colorimetric detection was carried out for acetaminophen, iron, nitrate, and nitrite with limits of detection of 0.04 μg, 4.5 mg mL−1, 2.7 μmol L−1, and 6.8 μmol L−1, respectively. A limit of detection of 0.048 fg mL−1 was obtained for the electrochemical analysis of prostate-specific antigen. Colorimetric and electrochemical devices revealed satisfactory performance when office paper with a grammage of 90 g m−2 was employed. Methyldopa analysis was also carried out using PSI-MS, which showed a good response in the same paper weight and behavior compared to chromatographic paper. [ABSTRACT FROM AUTHOR]

Published

2024

88. Effect of a Nanocellulose Addition on the Mechanical Properties of Paper.

Author

Bárta, Josef, Hájková, Kateřina, Sikora, Adam, Jurczyková, Tereza, Popelková, Daniela, and Kalous, Petr

Subjects

TENSILE strength, PAPER products, FLAX, SULFATE pulping process, DURABILITY

Abstract

Nowadays, the emphasis is on increasing the durability of all products. For this reason, it is also advisable to look into extending the durability of paper products. The main reason for using flax pulp is that flax and cotton pulp are widely used for the production of banknotes due to their higher strength. This paper deals with flax pulp with the addition of nanocellulose, which should further enhance the mechanical properties of the pulp. The tensile strength, breaking length, and tensile energy absorption index were evaluated as the key mechanical properties. At the same time, the effect of the addition of nanocellulose, whether it was added to the pulp mass or applied to the later produced paper as a spray or coating, was tested in comparison to paper without the addition of nanocellulose. The best mechanical properties, i.e., tensile strength, were achieved for the highest addition of 5% of nanocellulose into the pulp, at 24.3 Nm∙g−1, and for the coating application, at 28.7 Nm∙g−1, compared to the flax pulp without the addition, where the tensile strength was 20.5 Nm∙g−1. The results of this research are used for the assessment of nanocellulose as a natural compatible additive to enhance the strength properties of cellulose-based materials. [ABSTRACT FROM AUTHOR]

Published

2024

89. A BIBLIOMETRIC ANALYSIS OF DEA CONTRIBUTIONS TO ENERGY EFFICIENCY IN THE PULP AND PAPER INDUSTRY.

Author

Gomes da Rocha, Vítor, Fernandes da Silva Rossato, Fabrícia Gladys, Leite de Moraes, Ariane Elias, and da Silva Miranda, Mara Rúbia

Subjects

ENERGY consumption, PAPER industry, DATA envelopment analysis, ENERGY industries

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

90. Paper biosensors utilize silver nanoparticles for onsite pesticide residue detection.

Author

Hermanto, Dhony, Ismillayli, Nurul, Hamdiani, Saprini, Kamali, Siti Raudhatul, Wirawan, Rahadi, and Muliasari, Handa

Published

2023

91. Automatically organizing papers in conference sessions using deep learning and network modeling.

Author

Gündoğan, Esra and Kaya, Mehmet

Subjects

DEEP learning, CONFERENCE papers

Abstract

Thousands of papers are published at conferences every year. Conference organizers manually assign accepted papers to the sessions according to the title and keywords given by the author. Then organizer names each session, based on his/her experience. These are complex and time-consuming processes and often fail to collect papers on a similar topic in content. This often causes the participant to exit the session after listening to the presentation of one or two papers, because the session name does not fully represent the papers in the session and the papers in the session are not close in content. As a solution to these problems, this paper proposes a method for automatically organizing conference sessions. The method first introduces a network created with a deep learning-based document similarity. Then, sessions are determined with a community discovery method specific to this network, and finally, session titles are extracted with a topic modeling approach. To the best of our knowledge, this paper is the first effort in this direction. Experiments conducted on sessions of three real conferences show that the proposed method is able to create up to 21% better similar sessions, and session names better represent the papers in that session. [ABSTRACT FROM AUTHOR]

Published

2024

92. Influence of Ethically-Minded Consumer Behavior, Digital Citizenship, and Retailers' Green Positioning on the Effectiveness of Store Flyer Sales Promotions (Paper vs. Digital).

Author

Costa, Ana Sofia and Azevedo, António

Subjects

ELECTRONIC paper, CONSUMER behavior, ORGANIZATIONAL citizenship behavior, SALES promotion, PRODUCT positioning, SUSTAINABILITY

Abstract

This study evaluates the impact of sales promotions that are featured in store flyers distributed by prominent retailers and their capacity to attract consumers to their establishments. A distinctive conceptual framework is introduced that scrutinizes the influence of ethically-minded consumer behavior, digital citizenship/literacy, and a retailer's orientation toward environmental sustainability and explicit ecological concerns. A quasi-experimental design was used to formulate four distinct scenarios from a possible set of eight, stemming from the combinations of three variables: 2 Retailer Positioning (green vs. without explicit ecological claims) × 2 Flyer Mediums (paper vs. digital) × 2 Discount Levels (5% discount vs. 30% discount). Through an online survey, a sample of 269 responses was garnered to gauge consumer reactions to these store flyers, evaluating their attitudes and receptiveness. The findings suggest that attitudes toward paper flyers were more favorable when presented by non-green retailers compared to their green counterparts. This can be attributed to a perceived inconsistency between a green brand positioning and the use of paper flyers. Furthermore, the propensity to transition to digital flyers was notably stronger for green retailers compared to non-green retailers, but this inclination was most pronounced when higher discounts were offered. [ABSTRACT FROM AUTHOR]

Published

2024

93. PCB-C4D coupled with paper-based microfluidic sampling for the rapid detection of liquid conductivity.

Author

Yang, Mingpeng, Cao, Mingyi, Zhang, Zhixuan, and Wang, Chaofan

Published

2024

94. Analysing the Suitability of Using Different Biodegradable Fluids for Power Transformers with Thermally Upgraded Paper.

Author

Méndez, Cristina, Olmo, Cristian, Antolín, Ismael, Ortiz, Alfredo, and Renedo, Carlos J.

Abstract

Mineral oil has been used for many years in various electrical equipment, including transformers, as a cooling and insulation medium. However, its low biodegradability and poor performance in terms of fire protection have prompted the search for fluids to replace it, with vegetable oils being prominently considered. In this study, the dielectric, chemical, and physical properties of four vegetable oils obtained from different seeds (sunflower, rapeseed, soybean, and palm) and a biodegradable synthetic fluid are analysed throughout their lifespan in transformers. Their performances are compared with a traditional mineral oil to assess which one is more suitable for use in transformers employing this type of paper. To achieve this, the fluids were subjected to thermal ageing in combination with copper and a thermally upgraded kraft (TUK) paper, with its degradation controlled by measuring the degree of polymerisation. The results demonstrate that the origin of the vegetable oils affects their properties and degradation rates. It was found that most of the alternative fluids are suitable for use in transformers with the TUK paper and that they can increase their lifespan. [ABSTRACT FROM AUTHOR]

Published

2024

95. "To give additional credit to this paper": the Lower Canada Army Bills and provisioning the state during the War of 1812.

Author

Leore, Corey

Subjects

WAR of 1812, CANADIAN history, PAPER money, LEGAL tender, ECONOMICS of war

Abstract

This article seeks to provide insight into the history and acceptance of paper money within British North America by examining the state money issued by Lower Canada's civil government and the British Army during the War of 1812. Prior to the war, British North America was suffering from a specie shortage that was further exacerbated by the need for significant expenditure increases to provision the state with the resources it needed for its war effort. In response, colonial authorities issued the Army Bills, a paper money that was backed by acceptance in paying public debts and duties while also possessing qualities that adhered to metalist principles. To many observers surprise, the money successfully circulated and was accepted by Lower Canada's colonists, who beforehand had largely been perceived by colonial officials as distrusting of paper money. This research argues that the state's acceptance of Army Bills for discharging public debts, particularly merchant duties, ensured that the money would provide the colonial government with the fiscal flexibility it needed to conduct its war effort. This provision, in addition to measures like legal tender laws protecting its use in private transactions, also supported its successful circulation within the colonial economy during the war. [ABSTRACT FROM AUTHOR]

Published

2024

96. The Fabrication and Detection Performance of High Sensitivity Au-Ag Alloy Nanostar/Paper Flexible Surface Enhanced Raman Spectroscopy Sensors.

Author

Deng, Zhiying, Wang, Tianyi, Cao, Shiyi, Zhao, Yuan, Han, Xiaoyu, Zhang, Jihong, and Xie, Jun

Abstract

Au-Ag alloy nanostars based flexible paper surface enhanced Raman spectroscopy sensors were fabricated through simple nanostar coating on regular office paper, and the surface enhanced Raman spectroscopy detection performances were investigated using crystal violet dye analyte. Au-Ag nanostars with sharp tips were synthesized via metal ions reduction method. Transmission electron microscope images, X-Ray diffraction pattern and energy dispersive spectroscopy elemental mapping confirmed the nanostar geometry and Au/Ag components of the nanostructure. UV-Vis-NIR absorption spectrum shows wide local surface plasmon resonance induced optical extinction. In addition, finite-difference time-domain simulation shows much stronger electromagnetic field from nanostars than from sphere nanoparticle. The effect of coating layer on Raman signal intensities was discussed, and optimized 5-layer coating with best Raman signal was obtained. The Au-Ag nanostatrs homogeneously distribute on paper fiber surface. The detection limit is 10−10 M, and the relationship between analyte concentrations and Raman signal intensities shows well linear, for potential quantitative analysis. The calculated enhancement factor is 4.795×106. The flexible paper surface enhanced Raman spectroscopy sensors could be applied for trace chemical and biology molecule detection. [ABSTRACT FROM AUTHOR]

Published

2024

97. Reactivity of carbon dioxide during pyrolysis of paper-plastic composite.

Author

Kim, Jung-Hun, Lee, Dong-Jun, Lee, Taewoo, Kim, Jee Young, Tsang, Yiu Fai, and Kwon, Eilhann E.

Subjects

CARBON dioxide, PYROLYSIS, WASTE paper, WASTE recycling, RAW materials

Abstract

Composite materials have been widely used because of their superior properties compared to those of the original material. Separation of the constituent materials is not easy in the recycling process, and such an effort lowers economic viability. As such, this study employed a pyrolysis as a valorizing method for the composite material. Disposable paper cup waste (DPCW) was chosen as the model compound for paper-plastic composites. To offer green/sustainable features, CO2 was employed as a raw and reactive material in the pyrolysis process. It was proved that DPCW primarily composed of cellulose (outer layer) and polyethylene (inner layer). In the single-stage and multistage pyrolysis of DPCW, the CO2 reactivity in the homogeneous reaction of CO2 and DPCW-derived volatiles was not rapid. To accelerate the reaction kinetics governing the reactivity of CO2, the catalytic pyrolysis of DPCW over Ni/SiO2 was performed. The formation of syngas increases significantly, suggesting that CO2 reactivity was catalytically enhanced. The generation of syngas (enhanced by CO2) was inversely related to the DPCW oil generation, indicating that more carbon was assigned from the oil to the gaseous pyrogenic products. The study results would offer a strategic means to valorize paper-plastic composites and CO2 into energy through pyrolysis. [ABSTRACT FROM AUTHOR]

Published

2024

98. Digital Desmadres (Mishmashes), Tape, Ink, Paint, Cardboard, Kraft Paper, Xeroxes, Fabric (and more Tape): Conversational Prolegomena to an Understanding of Mextasy: Seductive Hallucinations of Latina/o/x Mannequins Prowling the American Unconscious.

Author

García, Guillermo Nericcio and Nericcio, William Anthony

Subjects

KRAFT paper, VISUAL culture, DECOLONIZATION, HALLUCINATIONS, DIGITAL humanities, CARDBOARD

Abstract

Copyright of Latin American & Latinx Visual Culture is the property of University of California Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

99. Highly sensitive plasmonic paper substrate fabricated via amphiphilic polymer self-assembly in microdroplet for detection of emerging pharmaceutical pollutants.

Author

Sharipov, Mirkomil, Kakhkhorov, Sarvar A., Tawfik, Salah M., Azizov, Shavkatjon, Liu, Hong-Guo, Shin, Joong Ho, and Lee, Yong-Ill

Subjects

EMERGING contaminants, PLASMONICS, SERS spectroscopy, BLOCK copolymers, MICROPOLLUTANTS, SILVER nanoparticles, POLYMERS

Abstract

We report an innovative and facile approach to fabricating an ultrasensitive plasmonic paper substrate for surface-enhanced Raman spectroscopy (SERS). The approach exploits the self-assembling capability of poly(styrene-b-2-vinyl pyridine) block copolymers to form a thin film at the air-liquid interface within the single microdroplet scale for the first time and the subsequent in situ growth of silver nanoparticles (AgNPs). The concentration of the block copolymer was found to play an essential role in stabilizing the droplets during the mass transfer phase and formation of silver nanoparticles, thus influencing the SERS signals. SEM analysis of the morphology of the plasmonic paper substrates revealed the formation of spherical AgNPs evenly distributed across the surface of the formed copolymer film with a size distribution of 47.5 nm. The resultant enhancement factor was calculated to be 1.2 × 107, and the detection limit of rhodamine 6G was as low as 48.9 pM. The nanohybridized plasmonic paper was successfully applied to detect two emerging pollutants—sildenafil and flibanserin—with LODs as low as 1.48 nM and 3.45 nM, respectively. Thus, this study offers new prospects for designing an affordable and readily available, yet highly sensitive, paper-based SERS substrate with the potential for development as a lab-on-a-chip device. [ABSTRACT FROM AUTHOR]

Published

2024

100. A Sandwich Structural Filter Paper–AgNWs/MXene Composite for Superior Electromagnetic Interference Shielding.

Author

Han, Xiaoshuai, Feng, Hongyu, Tian, Wei, Zhang, Kai, Zhang, Lei, Wang, Jiangbo, and Jiang, Shaohua

Subjects

ELECTROMAGNETIC interference, ELECTROMAGNETIC shielding, POLYVINYL butyral, FILTER paper, ELECTRIC conductivity

Abstract

A thin, lightweight and flexible electromagnetic interference (EMI) shielding paper composite is an urgent need for modern military confrontations. Herein, a sandwich-structured EMI shielding paper composite with an easy pavement consisting of a filter paper layer, middle AgNWs/MXene layer, and polyvinyl butyral (PVB) layer was constructed by vacuum-assisted filtration, spraying and air-drying. The middle AgNWs/MXene compound endowed the filter paper with excellent electrical conductivity (166 S cm−1) and the fabricated filter paper–AgNWs/MXene–PVB composite exhibits superior EMI shielding (30 dB) with a 141 μm thickness. Remarkably, the specific EMI shielding effectiveness (SSE/t) of the filter paper–AgNWs/MXene–PVB composite reached 13,000 dB cm2 g−1 within the X-band frequency range. This value represents one of the highest reported for cellulose-based EMI shielding materials. Therefore, our sandwich-structured filter paper composite with superior EMI shielding performance can be used in the medical and military fields. [ABSTRACT FROM AUTHOR]

Published

2024