Showing total 806,523 results

1. Reprogrammable, Recyclable Origami Robots Controlled by Magnetic Fields.

Author

Chung, Gooyoon, Chae, Jeong Woo, Han, Dong-Soo, Won, Sang Min, and Park, Yoonseok

Subjects

MAGNETIC actuators, ROBOT control systems, SOFT robotics, PAPER arts, ELECTRONIC circuits

Abstract

Origami, the art of paper folding, has emerged as a versatile technique for crafting intricate 3D structures from 2D sheets. Combined with the magnetic actuation, origami paper becomes the building blocks for cost‐effective, wirelessly controllable magnetic robots. Herein, a biodegradable magnetic paper with excellent formability and recyclability is developed, facilitating its convenient utilization and disposal. The programable magnetic paper, fabricated with specific magnetization and crease patterns, enables the transformation of 2D sheets into predetermined 3D structures. Leveraging the lightweight and pliable nature of paper‐based materials, exceptional control of origami robots with fast response is demonstrated, enabling a wide range of locomotion. Furthermore, the paper‐based approach enables the incorporation of electronic functionality into magnetic actuators. By introducing conductive nanoparticles into magnetic paper, an electrically conductive substance is created. Constructing electronic circuits and integrating electronic components onto the paper‐based printed circuit board platform enables the repairing of broken circuits inside complicated equipment and optical sensing of surrounding environments in conjunction with locomotive robots. The origami robots have a huge potential to be facilitated in diverse fields with various functions, demonstrating complex locomotion, and integrating chemical, optical, thermal, and mechanical sensors for monitoring environmental conditions in hard‐to‐reach locations. The array of possibilities holds significant promise for the widespread application of these origami magnetic robots across a diverse spectrum of research fields in soft robotics. [ABSTRACT FROM AUTHOR]

Published

2024

2. High‐efficiency modification of PET by the low addition of a self‐assembled functional nanocellulose film prepared from waste paper.

Author

Lei, Wanqing, Hou, Jingyu, Fang, Changqing, Qin, Jianqin, Zhou, Xing, and Li, Lu

Subjects

PAPER recycling, WASTE paper, WASTE recycling, POLYETHYLENE terephthalate, PACKAGING waste, PACKAGING recycling

Abstract

Polyethylene terephthalate (PET) is a conventional packaging material. Its modification has attracted immense attention in the industry and academia. Here, office waste paper, white cardboard waste, and waste corrugated paper were first employed as raw materials for cellulose nanocrystal (CNC) extraction by acid hydrolysis. Thereafter, CNC/PET composite films with various CNC additions were prepared via a self‐assembly technique. The results revealed that the CNCs formed a self‐assembled film on the PET surface via the synergistic effect of the complex interactions among the CNCs as well as between the CNCs and PET. Moreover, the CNCs improved the barrier property of PET and decreased the oxygen and water vapor transmittances of CNC/PET by 30.7% and 21.7%, respectively. Additionally, the coating of the PET surface with 0.2 wt.% CNCs extracted from the waste paper decreased the surface wettability of PET, exhibiting application potentials in the hydrophobic modification of polymers. This study realized waste paper recycling and provided a basis for constructing self‐assembled functional films on PET surfaces. The findings and insights of this study could exhibit application potentials in the fields of waste recycling and packaging materials. Highlights: A functional cellulose nanocrystal (CNC) film is prepared from waste paper.Self‐assembled CNC is coated on a PET surface to form a CNC/PET composite film.The synergistic interactions among CNCs and between CNC and PET modified PET.The low addition of CNCs realized the efficiency modification of PET.The study achieves waste paper recycling and high‐value utilization. [ABSTRACT FROM AUTHOR]

Published

2024

3. Characteristics and degradability of laser print waste paper fiber reinforced PLA resin matrix composite materials.

Author

Zhang, Xiaolin, Chang, Xing, Xu, Long, Huang, Maocai, Zuo, Liyuan, Cao, Jing, Wu, Yali, Li, Xin, Yang, Menghao, Gao, Limin, and Bo, Xiangfeng

Subjects

WASTE paper, LASER printing, WOOD-pulp, LACTIC acid, RENEWABLE natural resources

Abstract

As is well known, Laser print paper is usually produced with high‐quality chemical wood pulp. The laser print waste paper fiber (LPWF) is a high‐quality secondary fiber, and the research and development of high‐value utilization technology for laser print waste paper has attracted much attention in the field of renewable resource recycling. In this study, LPWF was used to reinforce poly(lactic acid) (PLA) composites in the field, and the composites were modified with bioenzyme, cationic polyacrylamide (CPAM), and nano‐silicon carbide (Nano‐SiC) to enhance the interfacial compatibility of LPWF/PLA composites. The study systematically investigated the effects of various modification methods on the characteristics and degradability of composites made from laser print waste paper fiber reinforced PLA resin matrix. The results showed that the mechanical properties of the composites treated with CPAM and Nano‐SiC were significantly improved, with tensile strengths of 54.3 and 59.5 MPa, and flexural strengths of 85.1 and 91.5 MPa, respectively, and the water absorption of the composites was reduced after the modification treatment, while the thermal stability was improved. The degradation performance of the composites in various water environments indicated that the inclusion of LPWF accelerated the water degradation rate of the composites, with the maximum degradation rate of the composite reaching 1.26% in 30 days. Highlights: Laser print waste paper is an excellent quality recyclable fiber resource.Four modifiers were used to modify LPWF/PLA composites.Characteristics and degradability of the composites were investigated.Significantly improved properties of CPAM and Nano‐SiC modified composites.The degradation rate of composites is increased by the addition of LPWF. [ABSTRACT FROM AUTHOR]

Published

2024

4. Oil blotting paper for formalin fixation increases endoscopic ultrasound‐guided tissue acquisition‐collected sample volumes on glass slides.

Author

Yamai, Takuo, Ikezawa, Kenji, Seiki, Yusuke, Watsuji, Ko, Kawamoto, Yasuharu, Hirao, Takeru, Daiku, Kazuma, Maeda, Shingo, Urabe, Makiko, Kai, Yugo, Takada, Ryoji, Mukai, Kaori, Nakabori, Tasuku, Uehara, Hiroyuki, Tsuzaki, Sayoko, Ryu, Ayumi, Tanada, Satoshi, Nagata, Shigenori, and Ohkawa, Kazuyoshi

Subjects

FORMALDEHYDE, FILTER paper, PETROLEUM, PANCREATIC cancer, OIL filters

Abstract

Objectives: Endoscopic ultrasound‐guided tissue acquisition (EUS‐TA) is used for pathological diagnosis and obtaining samples for molecular testing, facilitating the initiation of targeted therapies in patients with pancreatic cancer. However, samples obtained via EUS‐TA are often insufficient, requiring more efforts to improve sampling adequacy for molecular testing. Therefore, this study investigated the use of oil blotting paper for formalin fixation of samples obtained via EUS‐TA. Methods: This prospective study enrolled 42 patients who underwent EUS‐TA for pancreatic cancer between September 2020 and February 2022 at the Osaka International Cancer Institute. After a portion of each sample obtained via EUS‐TA was separated for routine histological evaluation, the residual samples were divided into filter paper and oil blotting paper groups for analysis. Accordingly, filter paper and oil blotting paper were used for the formalin fixation process. The total tissue, nuclear, and cytoplasm areas of each sample were quantitatively evaluated using virtual slides, and the specimen volume and histological diagnosis of each sample were evaluated by an expert pathologist. Results: All cases were cytologically diagnosed as adenocarcinoma. The area ratios of the total tissue, nuclear, and cytoplasmic portions were significantly larger in the oil blotting paper group than in the filter paper group. The frequency of cases with large amount of tumor cells was significantly higher in the oil blotting paper group (33.3%) than in the filter paper group (11.9%) (p = 0.035). Conclusions: Oil blotting paper can increase the sample volume obtained via EUS‐TA on glass slides and improve sampling adequacy for molecular testing. [ABSTRACT FROM AUTHOR]

Published

2024

5. Flexible Phototransistors on Paper: Scalable Fabrication of PEDOT:PSS Devices Using a Pen Plotter.

Author

Sozen, Yigit, Ersu, Gülsüm, Pucher, Thomas, Quereda, Jorge, and Castellanos‐Gomez, Andres

Abstract

Phototransistors are used in plenty of diverse applications such as optical communication systems, light sensors, imaging devices, and biomedical instruments for detecting and amplifying light signals. Herein, an approach for the large‐scale production of low‐cost and flexible phototransistors by integrating the inks of PEDOT:PSS, and graphite with paper, which serves as an ionic conductor material to gate the PEDOT:PSS channel, is proposed. The fabrication of the devices is carried out by sequentially depositing the PEDOT:PSS channel and graphite electrodes onto paper using a benchtop XY plotter. To characterize device‐to‐device variability, 200 devices are fabricated and their electrical and optical properties are statistically analyzed. By performing a detailed characterization on the optical properties under varying wavelength, power, and bias conditions, it is found that devices exhibit good photoresponse across a wide spectrum range. Moreover, devices maintain their photoactive characteristics even when subjected to high mechanical tensile strain, indicating the suitability of these paper‐supported devices for flexible electronic applications. Time and photocurrent magnitude can be tuned via gate voltages applied through the graphite‐based back‐gate configuration. [ABSTRACT FROM AUTHOR]

Published

2024

6. Cellulose nanocrystal‐modified bio‐based aqueous polyurethane coating agent for kraft paper packaging.

Author

Chen, Xin, Feng, Jianyan, Han, Shuaishuai, Bai, Yang, Wang, Peng, Liu, Haoqiang, Zhang, Peng, and Luo, Xiaomin

Subjects

KRAFT paper, POLYOLS, POLYURETHANES, CELLULOSE nanocrystals, CONTACT angle, FOOD packaging, CELLULOSE

Abstract

With the implementation of the "plastic restriction order" and the demand for sustainable society development, biodegradable coatings derived from biomass materials have garnered significant interest. This study presents the synthesis of a double‐salt bio‐based waterborne polyurethane (PLA‐WPU) by utilizing poly(lactic acid) polyol (PLA) and isophorone diisocyanate (IPDI) as the main raw materials, along with 2,2‐dihydroxymethylpropionic acid (DMPA) and sodium ethylenediamine ethanesulfonate (A‐95) as a hydrophilic chain extender. Synergistic reinforcement of PLA‐WPU using hydrophobically modified cellulose nanocrystals (M‐CNC) and polycarbonate diimide (PDCDA). At an M‐CNC content of 3% relative to the effective mass of PLA‐WPU, the tensile strength reached 36.12 MPa. After 8 days a lipase PBS solution, the degradation rate reached 54%. Excellent waterproof performance was observed, exhibiting a contact angle of 143.5°. When applied as a surface coating on kraft paper, the Cobb 60 value decreased from 74.0 to 28.6 g/m2, while increasing the tensile strength by 451.3%. Importantly, the kraft paper maintained excellent waterproofing, mechanical strength, and high barrier properties even after repeated folding, high and low‐temperature conditions, and exposure to varying pH solutions. It proved to be both degradable and recyclable, making it a promising alternative to liner paper or plastic membrane, especially in food packaging. [ABSTRACT FROM AUTHOR]

Published

2024

7. Optimizing CO2 Adsorption/Desorption via the Coupling of Imidazole and Carbon Nanotubes Paper for Spontaneous CO2 Uptake from Ambient Air and Solar‐Driven Release.

Author

Li, Chujia, Cao, Xuebo, Liu, Guangchun, Huang, Lin, Chu, Mingming, Cheng, Ruobing, Wang, Aijun, and Xu, Zhen

Subjects

GREENHOUSE effect, CARBON paper, CARBON sequestration, DENSITY functional theory, CARBON nanotubes

Abstract

Direct air capture (DAC) is a sustainable technology to alleviate the greenhouse effect and a reliable pathway to acquire inexhaustible CO2 for the production of costly chemicals and energy products. Current DAC technologies with amine‐related sorbents rely on chemisorption, while they consume intensive energy for CO2 release and sorbent regeneration by heating. Developing new DAC processes with weak, reversible adsorption can substantially reduce the regeneration energies. Herein, the design of CO2 breathing paper (CBP) is demonstrated toward spontaneous CO2 extraction from ambient air and solar‐driven regeneration. The CBP is fabricated by coupling 2‐ethyl‐4‐methylimidazole to carbon nanotube paper on the basis of density functional theory calculations. At ambient conditions, CBP spontaneously captures atmospheric CO2 with a capacity of 0.14–1.75 mmol g–1 at 0–35 °C through non‐covalent electrostatic interaction. Upon exposure to sunlight, all adsorbed CO2 can be released and converted to concentrated gas for storage. Attractively, the efficiency of solar‐driven CO2 release is much higher than the traditional temperature‐swing method owing to the IR sensitivity of CO2. Besides the reversibility, the mild conditions also ensure the durability of CBP. These findings suggest that the CBP is a promising candidate for cost‐effective DAC. [ABSTRACT FROM AUTHOR]

Published

2024

8. Recyclability of Paper‐Based Composites for Packaging Applications – The Role of Evaluation Methods.

Author

Kochersperger, Summer and Schabel, Samuel

Subjects

WASTE recycling, PAPER recycling, EVALUATION methodology, SUSTAINABLE development, RECYCLED paper

Abstract

Composites are pivotal in Europe's evolving packaging sector, which is undergoing changes due to circular and bioeconomy initiatives, which prioritize eco‐friendly packaging. Despite paper's high recycling rates, dynamic markets challenge recycling and circularity. Innovative paper‐based composites demand flexible recyclability assessments, which impacts product development. Recyclability methods are evolving as they struggle to match the dynamic changes occurring in the packaging sector. This article outlines paper recycling and compares global lab recyclability evaluation methods. [ABSTRACT FROM AUTHOR]

Published

2024

9. Building a Multimodal Dataset of Academic Paper for Keyword Extraction.

Author

Zhang, Jingyu, Yan, Xinyi, Xiang, Yi, Zhang, Yingyi, and Zhang, Chengzhi

Subjects

DATA mining, TEXT mining, KEYWORDS, PREDICTION models, DATA fusion (Statistics)

Abstract

Up to this point, keyword extraction task typically relies solely on textual data. Neglecting visual details and audio features from image and audio modalities leads to deficiencies in information richness and overlooks potential correlations, thereby constraining the model's ability to learn representations of the data and the accuracy of model predictions. Furthermore, the currently available multimodal datasets for keyword extraction task are particularly scarce, further hindering the progress of research on multimodal keyword extraction task. Therefore, this study constructs a multimodal dataset of academic paper consisting of 1,000 samples, with each sample containing paper text, images, audios and keywords. Based on unsupervised and supervised methods of keyword extraction, experiments are conducted using textual data from papers, as well as text extracted from images and audio. The aim is to investigate the differences in performance in keyword extraction task with respect to different modal information and the fusion of multimodal information. The experimental results indicate that text from different modalities exhibits distinct characteristics in the model. The concatenation of paper text, image text and audio text can effectively enhance the keyword extraction performance of academic papers. [ABSTRACT FROM AUTHOR]

Published

2024

10. Understanding Why WeChat Articles Mention Chinese Scholarly Papers: A Content Analysis Approach.

Author

Yang, Siluo, Li, Longfei, Jin, Yujie, and Feng, Qian

Subjects

CONTENT analysis, ALTMETRICS, SOCIAL media

Abstract

The academic community may make research findings public by mentioning Chinese scholarly papers on WeChat. However, why and how Chinese research papers were cited in WeChat articles remains unknown. This work conducted a content analysis of the motivations, emotions, forms, and elements of WeChat mentions. Data was collected from CNKI and WeChat official accounts, resulting in a dataset of 7,970 core journal papers with 21,134 WeChat mentions. Key findings include that: (1) Most of the mentions in the WeChat articles present Chinese academic publications for sharing and introduction. These mentions account for about 64%. (2) Mention sentiments are mainly neutral (around 64%). Negative emotions are almost absent. (3) In the mention forms, most WeChat articles mentioning scholarly papers do not include reference lists. They mention the papers directly in the body of the WeChat articles with recognizable elements of academic papers. (4) Concerning the mentioned elements, academic papers consist of essential content parts. They include titles (78%), abstracts (12%), and full texts (9%), and that gets the most WeChat mentions. This would give a better base and reference for advancing altmetrics in China. And it would be helpful to know the cause and how the academic papers spread on Chinese social media. [ABSTRACT FROM AUTHOR]

Published

2024

11. Recent Research Progress of Paper‐Based Supercapacitors Based on Cellulose.

Author

Xiong, Chuanyin, Wang, Tianxu, Han, Jing, Zhang, Zhao, and Ni, Yonghao

Subjects

SUPERCAPACITORS, CELLULOSE, ENERGY storage, CLEAN energy, SUSTAINABLE development

Abstract

In recent years, paper‐based functional materials have received extensive attention in the field of energy storage due to their advantages of rich and adjustable porous network structure and good flexibility. As an important energy storage device, paper‐based supercapacitors have important application prospects in many fields and have also received extensive attention from researchers in recent years. At present, researchers have modified and regulated paper‐based materials by different means such as structural design and material composition to enhance their electrochemical storage capacity. The development of paper‐based supercapacitors provides an important direction for the development of green and sustainable energy. Therefore, it is of great significance to summarize the relevant work of paper‐based supercapacitors for their rapid development and application. In this review, the recent research progress of paper‐based supercapacitors based on cellulose was summarized in terms of various cellulose‐based composites, preparation skills, and electrochemical performance. Finally, some opinions on the problems in the development of this field and the future development trend were proposed. It is hoped that this review can provide valuable references and ideas for the rapid development of paper‐based energy storage devices. [ABSTRACT FROM AUTHOR]

Published

2024

12. An Antioxidant, Reusable Laser Printed and Recycled Cork Paper Packaging.

Author

Zhai, Wenxiang, Zhong, Yijing, Xu, Min, Wei, Xinli, Cai, Liping, Xia, Changlei, and Wei, Yunzhao

Subjects

FOOD waste recycling, LIQUID waste, FOOD packaging, RECYCLED paper, FOOD waste

Abstract

In the realm of food waste recycling, industrial suberoligneous by‐products like cork and peels, pose a challenge for value‐added conversion, primarily due to their intricate structures. This study introduces an innovative approach by utilizing recycled cork as a prime example of repurposing food waste to create a reusable and durable packaging paper. Notably, the manufacturing process of this cork‐based paper avoids the generation of waste liquids from lignin removal, effectively alleviating concerns related to liquid waste pollution. The resulting packaging paper demonstrates remarkable printability, readability, and erasability while offering reusability. Its performance can be fine‐tuned through pH value adjustments. Moreover, this packaging paper exhibits outstanding antioxidative properties and barrier properties, seamlessly integrating superb UV‐blocking proficiency and heightened visible transparency, rendering it highly appealing for sustainable food packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

13. Upcycling Waste Biomass–Production of Porous Carbonaceous Supports from Paper Mill Sludge and Application to CO2 Conversion.

Author

Ribeiro, Mónica Stanton, Lima, Maria M. R. A., Vilarigues, Márcia, Zanatta, Marcileia, and Corvo, Marta C.

Subjects

PAPER mill waste, CARBON-based materials, HYDROTHERMAL carbonization, POROUS materials, WASTE management, CARBONACEOUS aerosols

Abstract

The urgent need for sustainable waste management strategies has led to the exploration of innovative approaches for the valorization of waste. In this study, a method is proposed for carbonizing waste biomass materials, particularly paper mill waste sludges (primary and biological) and knots, to produce porous carbonaceous supports. Through an initial hydrothermal carbonization followed by carbonization with nitrogen flow, porous carbon materials are successfully generated. The findings of this investigation validate the successful generation of effective carbonaceous supports utilizing waste biomass materials. These materials are then evaluated for their effectiveness as porous supports in the ionic liquid‐catalyzed cycloaddition reaction of CO2 to styrene oxide, achieving a remarkable conversion rate of up to 98% and an impressive selectivity exceeding 99%. Additionally, the results underscore the significant impact of the selected IL on the overall conversion process. Overall, this study presents a promising pathway for the valorization of paper mill waste sludge through the production of porous carbon materials with potential applications in catalysis and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

14. The making of paper money in early modern Japan.

Author

D'Amico, John

Subjects

PAPER money, NON-state actors (International relations), VALUE (Economics), RULING class, MONETARY systems, INVESTORS

Abstract

This article explores the conception and execution of paper currency schemes in Tokugawa Japan (1603–1868). Paper currency was widely used as a form of local money in early modern Japan, but has received close to no attention in Anglophone scholarship even amid a recent upsurge in interest in the global history of money. From the perspective of monetary history, Tokugawa paper currency presents an intriguing puzzle. Even as paper currencies repeatedly collapsed in value, they remained in common use as an essential component of the early modern monetary system. Using the case of Sendai domain, a large fiefdom in northeastern Japan, the article argues that the monetary practices and expectations of ordinary subjects transformed paper money, created through partnerships between the samurai ruling class and powerful merchant financiers, from a tool meant to serve the interests of state finances into a low‐denomination currency convenient for everyday transactions, resulting in the bills' surprising longevity as a form of small change. Drawing on approaches that centre the role of non‐state and marginal actors in the making of money, it sheds new light on the political economy of late Tokugawa Japan and offers new insights into the global history of money. [ABSTRACT FROM AUTHOR]

Published

2024

15. Synthesis and characterization of cellulose nanofibers from waste paper and their utilization in wood adhesion.

Author

Joshi, Garima and Chauhan, Shakti Singh

Subjects

WASTE paper, WASTE recycling, WOOD, CELLULOSE synthase, CHEMICAL processes, NANOFIBERS

Abstract

Nanocellulose extraction from lignocellulosic materials is a highly chemical and energy‐intensive process as it requires the removal of lignin and hemicellulose. Writing paper is one of the processed materials that could be used as a raw material for the extraction of nanocellulose. In this work, cellulose nanofibers (CNFs) were synthesized from paper waste using TEMPO‐oxidation followed by high‐shear microfluidization. Scanning electron microscopy and atomic force microscopy confirmed the diameter of fibers in the nano‐range and a consistent zeta potential confirmed the stability of CNF suspension in water over a long time frame. Characterization of the CNFs using Fourier transform infrared spectroscopy indicated the presence of a carbonyl group due to the oxidation process. Thermogravimetric analysis and x‐ray diffraction revealed lower thermal stability and reduction in the crystallinity index of CNFs, as compared to pulp fibers. The obtained CNFs were used successfully as the sole binding agent in the preparation of fiberboards and also utilized as a reinforcing agent for polyvinyl acetate (PVAc) adhesive in the preparation of laminated veneer lumber (LVLs). The addition of CNFs in PVAc improved the glue shear strength indicating superior bonding characteristics and also increased the water resistance of the LVLs. Highlights: This work focused on cellulose nanofibers (CNFs) extraction from waste paperObtained CNFs form stable water suspension and have a diameter of less than 15 nmThermal stability and crystallinity index reduced after conversion to nanofibersCNFs form a complex network and act as a sole binder to make fiberboardsCNFs were utilized as a reinforcing agent for PVAc in preparation of LVLs [ABSTRACT FROM AUTHOR]

Published

2024

16. Microscopic mechanisms analysis of various dielectric response processes in oil‐paper insulation with different insulating states.

Author

Jiang, Zaijun, Liu, Jiefeng, Fan, Xianhao, Zhang, Heng, Zhang, Enze, Song, Boshu, and Zhang, Yiyi

Published

2024

17. Author Index.

Subjects

PAPER arts, GOVERNMENT report writing, AUTHORS

Published

2020

18. Evaluating the insulation condition of oil‐impregnated paper bushings based on the time constant database.

Author

Taghizade Ansari, Hossein, Vahedi, Abolfazl, and Mahmoudi, Nami

Abstract

Assessing the insulation condition of oil‐impregnated paper (OIP) bushings is necessary to guarantee the safe operation of power transformers. Moisture is the main threat to the insulation of OIP bushings. Therefore, accurately estimating their moisture value is crucial to keep power systems running smoothly. However, it has been suggested that the ageing status of OIP bushings should be considered while assessing the moisture. Dielectric frequency‐domain spectroscopy (FDS) has been extensively employed for assessing insulation condition of OIP insulations due to its benefits. A new approach was proposed to assess the insulation condition of OIP bushings using FDS results. Various OIP samples with various moisture levels and degrees of polymerisation (DP) were selected. The extended Debye model (EDM) parameters related to each sample were calculated using their tanδ − f curve. A time constant database (TCD) was created using the obtained time constants of EDM, which includes the dominant time constant and time constant related to the R0 – C0 branch, and their corresponding insulation condition. Then, a method was introduced based on the created TCD to estimate the insulation condition of OIP bushings. The results showed that the average relative error of moisture and DP estimation is 8.33% and 6.32%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

19. Publication and collaboration anomalies in academic papers originating from a paper mill: Evidence from a Russia‐based paper mill.

Author

Abalkina, Anna

Subjects

PAPER mills, PREDATORY publishing

Abstract

This study attempts to detect papers originating from the Russia‐based paper mill 'International Publisher' LLC. A total of 1,063 offers to purchase co‐authorship on a fraudulent papers published from 2019 to mid‐2022 on the 123mi.ru website were analysed. This study identifies at least 451 papers that are potentially linked to the paper mill, including one preprint, a duplication paper and 16 republications of papers erroneously published in hijacked journals. Evidence of suspicious provenance from the paper mill is provided: matches in title, number of co‐authorship slots, year of publication, country of the journal, country of a co‐authors and similarities of abstracts. These problematic papers are co‐authored by scholars from at least 39 countries and are submitted to both predatory and reputable journals. This study also demonstrates collaboration anomalies in questionable papers and examines indicators of the Russia‐based paper mill. The value of co‐authorship slots offered by 'International Publisher' LLC from 2019 to 2021 is estimated at $6.5 million. Since this study only analysed a single paper mill, it is likely that the number of papers with forged authorship is much higher. [ABSTRACT FROM AUTHOR]

Published

2023

20. 49‐3: Invited Paper: High‐Resolution Color‐Reflective Bistable Cholesteric Liquid Crystal Technology for Signage Applications.

Author

Yao, I-An, Lee, Wei-Cheng, Chen, Po-Yang, Yao, Ping-Chun, Lin, Jiunn-Shyong, Wu, Yung-Hsun, and Yang, Chiu-Lien

Subjects

CHOLESTERIC liquid crystals, ELECTRONIC paper, REFLECTANCE, SIGNAGE, PIXELS, LIQUID crystal displays

Abstract

An optimized color‐reflective LCD with high optical performances and cost‐effective structure has been proposed by association with cholesteric liquid crystal technology. By way of a color dithering algorithm, the cholesteric liquid crystal display (Ch‐LCD) can visualize a 24‐bit RGB color pixel and display over 16 million colors. Moreover, the waveform module (WF) is applied to emulate the display timing controller, which is a lowcost and more accessible way to drive the Ch‐LCD. In this paper, we demonstrated a 13.3‐inch passive matrix (PM) driven Ch‐LCD with a high resolution of 202 PPI, high reflectance of 30%, and high color gamut of 20%, which is suitable for electronic signage applications. [ABSTRACT FROM AUTHOR]

Published

2024

21. Differential and Functional Response Time Item Analysis: An Application to Understanding Paper versus Digital Reading Processes.

Author

Cho, Sun‐Joo, Goodwin, Amanda, Naveiras, Matthew, and Salas, Jorge

Subjects

ELECTRONIC paper, REACTION time, FALSE positive error, CONDITIONED response, SMOOTHNESS of functions, READING comprehension

Abstract

Despite the growing interest in incorporating response time data into item response models, there has been a lack of research investigating how the effect of speed on the probability of a correct response varies across different groups (e.g., experimental conditions) for various items (i.e., differential response time item analysis). Furthermore, previous research has shown a complex relationship between response time and accuracy, necessitating a functional analysis to understand the patterns that manifest from this relationship. In this study, response time data are incorporated into an item response model for two purposes: (a) to examine how individuals' speed within an experimental condition affects their response accuracy on an item, and (b) to detect the differences in individuals' speed between conditions in the presence of within‐condition effects. For these two purposes, by‐variable smooth functions are employed to model differential and functional response time effects by experimental condition for each item. This model is illustrated using an empirical data set to describe the effect of individuals' speed on their reading comprehension ability in two experimental conditions of reading medium (paper vs. digital) by item. A simulation study showed that the recovery of parameters and by‐variable smooth functions of response time was satisfactory, and that the type I error rate and power of the test for the by‐variable smooth function of response time were acceptable in conditions similar to the empirical data set. In addition, the proposed method correctly identified the range of response time where between‐condition differences in the effect of response time on the probability of a correct response were accurate. [ABSTRACT FROM AUTHOR]

Published

2024

22. Unraveling the Harmonious Coexistence of Ruthenium States on a Self‐Standing Electrode for Enhanced Hydrogen Evolution Reaction.

Author

Ma, Joonhee, Cho, Jin Hyuk, Lee, Chaehyeon, Kang, Moon Sung, Choi, Sungkyun, Jang, Ho Won, Ahn, Sang Hyun, Back, Seoin, and Kim, Soo Young

Subjects

HYDROGEN evolution reactions, SCANNING transmission electron microscopy, RUTHENIUM catalysts, CARBON paper, PHOTOELECTRON spectroscopy

Abstract

The development of cost‐effective, highly efficient, and durable electrocatalysts has been a paramount pursuit for advancing the hydrogen evolution reaction (HER). Herein, a simplified synthesis protocol was designed to achieve a self‐standing electrode, composed of activated carbon paper embedded with Ru single‐atom catalysts and Ru nanoclusters (ACP/RuSAC+C) via acid activation, immersion, and high‐temperature pyrolysis. Ab initio molecular dynamics (AIMD) calculations are employed to gain a more profound understanding of the impact of acid activation on carbon paper. Furthermore, the coexistence states of the Ru atoms are confirmed via aberration‐corrected scanning transmission electron microscopy (AC‐STEM), X‐ray photoelectron spectroscopy (XPS), and X‐ray absorption spectroscopy (XAS). Experimental measurements and theoretical calculations reveal that introducing a Ru single‐atom site adjacent to the Ru nanoclusters induces a synergistic effect, tuning the electronic structure and thereby significantly enhancing their catalytic performance. Notably, the ACP/RuSAC+C exhibits a remarkable turnover frequency (TOF) of 18 s−1 and an exceptional mass activity (MA) of 2.2 A mg−1, surpassing the performance of conventional Pt electrodes. The self‐standing electrode, featuring harmoniously coexisting Ru states, stands out as a prospective choice for advancing HER catalysts, enhancing energy efficiency, productivity, and selectivity. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Study Into the Hot Tack and Cooled Seal Performance of Emerging Coated Papers for Primary Flexible Food Packaging.

Author

Bamps, Bram, Samyn, Pieter, Rosenow, Phil, Stobinska, Magdalena, Kamola, Paulina, Tarnowiecka‐Kuca, Alicja, and Peeters, Roos

Subjects

PROTECTIVE coatings, FOOD packaging, GLASS transition temperature, FLEXIBLE packaging, DIFFERENTIAL scanning calorimetry, PACKAGING materials

Abstract

In response to the need to employ recyclable materials for food packaging, the resurgence of paper as a primary flexible packaging material is driven by consumer trust in paper and its renewable wood fibre composition, strengthened by a well‐established recycling infrastructure. A diverse range of coated papers and coatings has become accessible in the market, specifically tailored for applications in horizontal and vertical form‐fill sealing. Within the framework of the CORNET‐TETRA project HBC.2021.0288 REPAC2, a careful selection of 16 food‐grade coated papers and/or coatings, slated for introduction to the market either presently or within the next 2 years, has been undertaken. This study focused on evaluating the processing window for superior hot tack and cooled seal performance of coated papers, in relation with the composition of paper coatings as identified using Fourier transform infrared (FTIR) measurements, and their thermal softening or melting characteristics as identified through differential scanning calorimetry (DSC). Thermal behaviour in DSC thermograms is used to categorize the commercial coated papers into distinct classes. Class I papers, mainly with acrylic‐based coatings, exhibit high hot tack strengths (0.2–0.7 N/mm) and a glass transition temperature (Tg) close to the seal initiation temperature but do not considerably gain strength with further cooling. Class II papers are thermally inert in DSC with minimal thermoplastics, leading to weak seals. In contrast, classes III and IV, including wax‐based and polyolefin‐based or polyvinylalcohol‐based (PVOH) coatings, respectively, show low initial hot tack strengths that considerably increase upon adequate cooling. Particularly, the Class IV papers with polyolefin‐based coatings have well‐performing seals. Despite having relatively low hot tack strengths after cool times of 0.1 s, below 0.3 N/mm, high strengths can be obtained after adequate cooling with outliers reaching 0.74 and 1.14 N/mm. Additionally, the influences of seal parameters on seal performance were evaluated. The study reveals that cool time, seal pressure and, to a lesser extent, seal time significantly impact hot tack strength, consistent with prior research. The critical role of jaw temperature in heat conductive sealing is affirmed, as it dictates the efficacy of other seal parameters. Seal initiation occurs at 75°C for four papers, and nine others necessitate temperatures equal to or exceeding 100°C, with one paper only displaying seal initiation at 195°C. This variation highlights the requisite for tailored temperature windows for effective sealing of these papers. As such, deeper insights into the intricate interplay between coating composition, thermal properties and seal performance are obtained in order to support advances in sustainable packaging technology. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effectiveness of wood ash and paper sludge as liming and nutrient sources for annual ryegrass grown in podzolic soils of Newfoundland.

Author

Javed, Bilal, Katanda, Yeukai, Nadeem, Muhammad, Wickremasinghe, Thilini, Farhain, Muhammad M., Thomas, Raymond, Galagedara, Lakshman, Guo, Xiaobin, and Cheema, Mumtaz

Subjects

WOOD ash, ITALIAN ryegrass, RYEGRASSES, PAPER mill waste, LIMING of soils, ACID soils

Abstract

The acidic soils of western Newfoundland require liming for successful production of most crops. Locally sourced paper mill waste wood ash (WA) and paper sludge (SL) have potential as cheaper alternatives to limestone (LIME). Two greenhouse experiments evaluated WA and SL as liming and soil conditioning amendments for annual ryegrass (Lolium multiflorum) production. At 55 days after seeding, soil pH in WA (6.2 and 6.3) and wood ash and paper sludge (WASL) (6.0 and 6.3) were not different from that in LIME (6.0 and 6.5) for Experiments 1 and 2, respectively. However, pH in SL was 0.4 and 0.3 points lower than in LIME. Compared to LIME, WA, SL, and WASL produced 31%–52% and 57%–74% greater biomass yield in Experiments 1 and 2, respectively. N uptake was greater in WA (60 and 129 kg N ha−1) and WASL (51 and 97 kg N ha−1) compared to LIME (40 and 85 kg N ha−1), in Experiments 1 and 2, respectively. SL did not differ from LIME in Experiment 1, but reduced N uptake by 57% in Experiment 2. The results show significant potential of WA as an alternative amendment for liming and yield improvement of annual ryegrass grown in NL podzolic soils. However, SL has limited potential due to the risk of increasing N immobilization and residual soil mineral N when growing conditions are limiting. Combining SL with WA or biochar seemed to alleviate these risks. Overall, the adoption of these amendments for field production systems warrants serious consideration, following supplemental field studies to determine optimal application rates and timing. Core Ideas: The podzolic soils of Newfoundland have low pH and fertility, hence require liming.Locally sourced wastes, such as paper mill wood ash (WA) and sludge (SL), could be used as liming and nutrient sources.WA was equivalent to limestone (LIME) in improving and sustaining optimal soil pH.WA produced 52% and 74% greater annual ryegrass yield than conventional LIME application in podzolic soils. [ABSTRACT FROM AUTHOR]

Published

2024

25. Lead–lag effect of research between conference papers and journal papers in data mining.

Author

Huang, Yue and Tian, Runyu

Abstract

The examination of the lead–lag effect between different publication types, incorporating a temporal dimension, is very significant for assessing research. In this article, we introduce a novel framework to quantify the lead–lag effect between the research topics of conference papers and journal papers. We first identify research topics via the text‐embedding‐based topic modeling technique BERTopic, then extract the research topics of each time slice, construct and visualize the similarity matrix of topics to reveal the time‐lag direction and finally quantify the lead–lag effect by four proposed indicators, as well as by average influence topic similarity comparison maps. We conduct a detailed analysis of 19,166 bibliographic data for top conference papers and journal papers from 2015 to 2019 in the data mining field, calculate the similarity of topics obtained by BERTopic between each time slice divided by quarters. The results show that journal paper topics lag behind conference paper topics in the data mining field. The most significant lead–lag effect is 2.5 years, with approximately 33.45% of topics affected by this lag. The methodology presented here holds potential for broader application in the analysis of lead–lag effects across diverse research areas, offering valuable insights into the state of research development and informing policy decisions. This article is categorized under:Application Areas > Science and Technology [ABSTRACT FROM AUTHOR]

Published

2024

26. Transportation Vibration Effects on Apple Bruising.

Author

Keyhan, Sarvenaz, Shirzad, Khadijeh, Almenar, Eva, and Joodaky, Amin

Subjects

CORRUGATED paperboard, PAPER pulp, RANDOM vibration, FOOD packaging, LEAF springs

Abstract

Vibrations during transportation often cause mechanical damage to fresh produce. Addressing or mitigating this damage requires efficient packaging solutions that maintain fresh produce integrity during transit, thereby preserving produce quality and market value. This study investigates the effects of various transportation profiles and packaging designs on apple bruising using simulated truck vibrations. Two apple varieties, Fuji and Jonagold, were packaged in corrugated paperboard boxes with paper pulp trays, plastic crates with paper pulp trays, corrugated paperboard boxes with volume packing and plastic crates with volume packing, all commercial apple packaging. The packaged apples were exposed to two random vibration profiles: leaf spring and air ride suspensions, both set at four different intensities ranging from 0.2 to 0.7 Grms for 1, 3 and 5 h. The findings revealed that both packaging type and vibration parameters significantly influenced apple bruising. Especially, plastic crates with paper pulp trays led to the most severe bruising, whereas corrugated paperboard boxes with volume packing afforded the most protection. Regardless of the packaging design, leaf spring suspension resulted in more apple bruising compared to air ride suspension. The findings of this study provide practical insights for packaging engineers to mitigate the apple bruising during transportation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Polymerization‐Induced Emission and Specific Detection to Cu2+ Ions of Polyacrylates with Morpholine Structure.

Author

Feng, Yayu, Fan, Enze, Liu, Yunfei, Gao, Rumeng, Wang, Lin, and Deng, Kuilin

Subjects

METAL ions, FLUORESCENT probes, POLYACRYLATES, FILTER paper, WASTE recycling

Abstract

In this investigation, the fluorescent poly(N‐hydroxyethyl morpholine acrylate) (PHEMA) and poly(N‐hydroxypropyl morpholine acrylate) (PHPMA) are prepared and applied as fluorescent probes for the specific detection of Cu2+ ions. Far different from the non‐fluorescent monomer, PHEMA and PHPMA emit a strong fluorescence at 410 nm due to the intramolecular aggregation of morpholine structures along macromolecular chains in the polymerization, indicating polymerization‐induced emission (PIE). The fluorescent emission of PHPMA shows the dependence on external factors including solution concentration, excitation wavelength, solvent, and pH value. PHPMA specifically detects Cu2+ ions even in the presence of 16 common metal ions and 6 anions, with an LOD of 0.077 µM. In the fluorescent quenching, the O atom from ─C═O and N atom from morpholine moiety on the PHPMA chain participate in the complexation with Cu2+ ions with the ratio of the structural unit and Cu2+ ion of 2:1, leading to the dynamic quenching of PHPMA solution. As for the application, PIE‐active PHPMA is easily made into a portable semi‐quantitative filter paper with recyclability. In brief, the PIE‐active PHPMA synthesized in this study can be used as a promising material for the specific detection of Cu2+ ions in industry, agriculture, and medicine fields. [ABSTRACT FROM AUTHOR]

Published

2024

28. Identifying Current Collectors that Enable Light–Battery Interactions.

Author

Pujari, Arvind, Kim, Byung‐man, Greenham, Neil C., and De Volder, Michael

Subjects

LITHIUM manganese oxide, ENERGY harvesting, CARBON paper, CYTOCHEMISTRY, ENERGY storage

Abstract

In recent years, there has been an increased focus on studying light–battery interactions in the context of operando optical studies and integrated photoelectrochemical energy harvesting. However, there has been little insight into identifying suitable "light‐accepting" current collectors for this class of batteries. In this study, fluorine‐doped tin oxide, indium‐tin oxide, and silver nanowire‐graphene films are analyzed along with carbon paper, carbon nanotube paper, and stainless‐steel mesh as current collectors for optical batteries. They are categorized into two classes – transmissive and non‐transmissive, based on the orientation of the light–electrode interaction. Various methods to prepare the electrode are highlighted, including drop casting and the fabrication of free‐standing electrodes. The optical and electrical properties of these current collectors as well as their electrochemical stability are measured using linear sweep voltammetry against zinc and lithium anodes. Finally, the rate performance and long‐term cycling stability of lithium manganese oxide (LiMn2O4) cathodes are measured against lithium anodes with these current collectors and their performance is compared. These results show which current collector to choose depends on the application and cell chemistry. These guidelines will assist in the design of future optical cells for in‐situ measurements and photoelectrochemical energy storage. [ABSTRACT FROM AUTHOR]

Published

2024

29. Green, Biodegradable, and Flexible Resistive Heaters‐Based Upon a Novel Laser‐Induced Graphene Manufacturing Process.

Author

Morais, Rogério Miranda, Vieira, Douglas Henrique, Ozório, Maiza da Silva, Nogueira, Gabriel Leonardo, Rollo, Andrew, Kettle, Jeff, and Alves, Neri

Subjects

KRAFT paper, RAMAN microscopy, FLEXIBLE electronics, PRODUCT life cycle assessment, SEMICONDUCTOR lasers, CELLULOSE fibers

Abstract

Laser induced graphene (LIG), prepared directly with an in situ synthesis method onto Kraft Paper substrates, is proposed for the manufacture of biodegradable electronic devices. The investigation explores the influence of laser power and scanning speed on the properties of LIG conductive tracks and a sheet resistance of up to 0.25 kΩ sq−1. Raman spectroscopy and microscopy is used to analyse the interfacial properties, in particular the transition of cellulose fibers to carbonized graphene flakes through photothermal pyrolysis, leading to the formation of coral‐like structures. To demonstrate the applicability of the approach, flexible resistive heaters have been manufactured and tests show rapid heating with a homogeneous distribution and a maximum temperature of 145.5 °C. Additionally, an electro‐thermal conversion efficiency (hr+c) of 17.05 mW (°C cm2)−1 is achieved. Finally, a comparative Life Cycle Assessment with FR‐4 based electronics has been undertaken and the environmental impacts are calculated. The impact assessment shows a two magnitude lower impact on the environment for most categories, which suggests the approach is beneficial for the environment at a global production level. The results show that the photothermal pyrolysis of Kraft paper using a laser diode allows for low‐impact devices flexible and green electronics products. [ABSTRACT FROM AUTHOR]

Published

2024

30. Lignosulfonate‐Based Carbon‐Supported Pellets Catalyst to Enhance Sustainable Biofuel Production from Waste Cooking Oil.

Author

Silva, Ingrid F., Shekova, Irina, Volkel, Antje, Al‐Naji, Majd, and Antonietti, Markus

Subjects

SUSTAINABILITY, EDIBLE fats & oils, FOSSIL fuels, SUNFLOWER seeds, PAPER products industry

Abstract

In this study, a cost‐effective and stable heterogeneous acidic carbocatalyst (CZnLS950) derived from Na‐lignosulfonate (LS), a side product of the paper industry, was employed to produce hydrocarbon fuels through the pyrolysis of waste cooking oil (WCO) and crude natural‐oil extracted from sunflower seeds, aligning with the principles of the circular economy. To enhance its practicality in industrial settings, the catalyst was synthesized in pellet form, enabling easy separation from the biofuel produced during the reaction. CZnLS950 exhibited remarkable catalytic efficiency in the pyrolysis of WCO, resulting in a 71 wt. % liquid biofuel yield under mild conditions. This performance is attributed to the unique synthesis procedure of acidic carbocatalyst, which utilizes LS and nano ZnO (20 nm) to create a hierarchical pore structure with acidic properties (1.1 mmol of NH3 g−1). Stability and reusability of the carbocatalyst were evaluated, and the results showed excellent stability with small catalytic deactivation (~5 wt. %) after the fourth use. Attempts at distinct catalytic mechanisms for WCO and sunflower seeds crude natural‐oil pyrolysis were provided to understand the processes involved in obtaining the two different biofuels produced. Overall, this study sets the stage for exploring Lignosulfonate‐based materials to achieve renewable biofuel from recycling streams. [ABSTRACT FROM AUTHOR]

Published

2024

31. 19‐4: Invited Paper: Digital Driving on Silicon Microdisplay for XR.

Author

Han, Jun-Han, Wang, Yun, and Wheelwright, Brian

Subjects

DIGITAL technology, ELECTRONIC paper, DISPLAY systems, SILICON

Abstract

Microdisplay on silicon backplane is a promising architecture for XR systems. While digital circuitry is advantageous on silicon backplane, digital driving display introduces visual artifacts. First, we investigated the mechanism and solution of visual artifacts relevant for XR displays. Next, we proposed a intraframe time warp (ITW) to compensate for visual artifacts from head motion. ITW provide benefits to µOLED displays in XR systems by utilizing the higher frequency of digital driving. Lastly, we studied a 4K resolution digital µOLED displays expecting more than 40% of power saving in driving. The proposed digital driving solution with ITW is advantageous in power consumption and visual performance, however, the development of related technology is crucial to build the system. [ABSTRACT FROM AUTHOR]

Published

2024

32. A new type of lipophilic hydrophobic self‐repairing cellulose insulating paper developed with ST‐110/FAS/PTFE ternary system as coating substrate.

Author

Zeng, Zhenglin, Qin, Jinshan, Wang, Zuhao, Tan, Weimin, and Tang, Chao

Published

2024

33. Concerning trends and potential issues in osteosarcoma research publication.

Author

Horiuchi, Keisuke and Chiba, Kazuhiro

Published

2024

34. 2024 Journal Outstanding Paper Awards.

Subjects

PLANT breeding, SCIENCE education, URBAN agriculture, CROP science, BOTANY, WINTER wheat

Abstract

The 2024 Journal Outstanding Paper Awards by ASA, CSSA, and SSSA recognize exceptional papers published in the past two years. Winners include studies on soybean yield response, maize tolerance to water deficit, and soil health indicators. These awards highlight the impact and originality of research in agriculture and environmental sciences. [Extracted from the article]

Published

2024

35. Synthesis of novel acrylate emulsions and examination of their synergistic effects with nanocellulose on paper strengthening.

Author

Fei, Guiqiang, Zhou, Zikun, Yang, Chenrong, Li, Shi, and Xie, Pan

Subjects

EMULSION polymerization, NONYLPHENOL, TENSILE strength, POLYETHYLENE glycol, STABILIZING agents

Abstract

With the development of the "paper instead of plastic" trend, the investigation into high‐density, heavy‐weight paper has emerged as a point of interest in both academic and industrial realms. Regrettably, the paper‐strengthening agents that are commercially available fall short of meeting the strength specifications for such papers. To rectify this shortcoming, a water‐based acrylate paper‐strengthening agent (AA) was developed through radical emulsion polymerization. The most stable acrylate emulsion was obtained by amalgamating the anionic emulsifier allyloxyammonium oxymethyl sulfate nonylphenol ethoxy sulfate (DNS‐86) with the nonionic emulsifier nonylphenol polyoxyethylene ether (OP‐10) at a proportion of 1:0.6, with a dosage of 3%. Substituting the conventional strengthening agent (styrene‐butadiene latex) with the synthesized acrylate emulsion in wet‐end addition markedly improved the paper strength, registering a 54.8% increase to 29.4 MPa. The introduction of carboxylated cellulose nanofibers (C‐CNF) further bolstered the mechanical properties of the paper, achieving a tensile strength of 41.44 MPa and an elongation at a break of 3.55%. These results underscore the efficacy of acrylate as a paper‐strengthening agent and the crucial role of C‐CNF in enhancing the structural integrity of paper materials. [ABSTRACT FROM AUTHOR]

Published

2024

36. Advanced reliability and safety methodologies and novel applications (Selected papers of the international conference of QR2MSE2023).

Author

Huang, Hong‐Zhong, Li, He, and Li, Yanfeng

Subjects

REMAINING useful life, FAILURE mode & effects analysis, PARTICLE swarm optimization, RELIABILITY in engineering, STRUCTURAL reliability, FAULT trees (Reliability engineering), FATIGUE life, DEEP learning

Abstract

This document is a summary of a special issue of the journal Quality & Reliability Engineering International. The issue showcases original research presented at the 2023 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering. The research papers cover a diverse range of topics related to reliability and safety in modern engineering systems. The papers address areas such as reliability modeling and analysis, reliability-based design and optimization, failure/safety analysis and prevention, and maintainability. The authors express their appreciation to the journal and the reviewers for their support and hope that the research presented will be valuable to researchers, engineers, scientists, and students in the field. [Extracted from the article]

Published

2024

37. The rise and fall of paper money in Yuan China, 1260–1368.

Author

Guan, Hanhui, Palma, Nuno, and Wu, Meng

Subjects

LEGAL tender, PRECIOUS metals, PRICES, NATURAL disasters, CIVIL war

Abstract

Following the Mongol invasion of China, the Yuan (1260–1368) dynasty was the first political regime to introduce a precious metal standard and deploy paper money as the sole legal tender. Drawing on a new dataset on money issues, prices, warfare, imperial grants, taxation, natural disasters, and population, we find that a silver standard initially consolidated the Chinese currency market. However, persistent fiscal pressures eventually compelled rulers to ease the monetary standard, and a fiat standard was adopted. We show that inflation was high in the early and late periods of the dynasty but remained moderate for nearly half a century. We find that military pressure, particularly civil war, generated fiscal demands that led to the over‐issuance of money. By contrast, natural disasters and imperial grants did not trigger the over‐issue of money. Warfare was much more likely to increase paper money issues under the fiat standard than during the silver standard period. [ABSTRACT FROM AUTHOR]

Published

2024

38. Cutting edge document examination: The physical fit of machine‐cut edges of paper.

Author

Musgrave, Nicola R., Thorne, Oliver T. S., and Howells, Alix J.

Subjects

SUCCESS, LABORATORIES, FORECASTING

Abstract

This technical note describes in detail a method for associating individual sheets of blank A4 white paper from the same ream by the physical fit of machine‐cut edges. A large‐scale laboratory trial involving ~700 sheets of paper from 24 different reams (plus one spoiled sample), and more than 20,000 potential physical fits, correctly associated and sequenced 219 pairs of sheets together with a 100% empirical success rate and no false associations. The edge profile of each short machine‐cut end of a sheet of A4 paper allows us to physically fit sheets of paper from the same ream to each other and use this to predict the sequence of sheets in a set of documents. In a real‐life scenario, it may now be possible to detect the substitution or addition of a sheet in a multipage document, link documents from different sources to each other or to a common source of paper (e.g. to paper from a seized printer or from an accused's address) or to date documents. The study provides data for the application of this method in forensic casework and supports the practitioner when forming conclusions in this type of case. [ABSTRACT FROM AUTHOR]

Published

2024

39. Application of aminotrimethylphosphonic acid modified starch‐based flame retardant in cellulosic paper.

Author

Chen, Guang, Liu, Zhuo, Deng, Songling, Zhao, Wenguang, and Chen, Qi‐Jie

Subjects

FIREPROOFING, FIREPROOFING agents, SUSTAINABLE development, THERMOGRAVIMETRY, TENSILE strength

Abstract

The development of green and efficient bio‐based flame retardants is very important for the development of flame‐retardant cellulosic paper. In this study, a novel type of starch‐based synergistic flame retardant (SAPU) was prepared using corn starch as carbon sources, amino trimethylphosphonic acid, and urea as phosphorus and nitrogen sources through the one‐pot method. Subsequently, the flame‐retardant cellulosic paper was prepared by impregnation, and the flame retardancy of the cellulosic paper was evaluated by vertical combustion, limiting oxygen index (LOI), and thermogravimetric analysis. The results demonstrated that the SAPU exhibited a favorable flame‐retardant effect on cellulosic paper. At a concentration of 25.0%, the vertical burning residue of flame‐retardant paper accounted for 49.16% of the total length of the paper sample, while the LOI was 39.4%. The tensile strength and burst index of cellulosic paper were found to be decreased by 6.36% and 19.1%, respectively, in comparison to the base paper. Conversely, the ring crush strength was observed to be increased by 156.2%. The carbon residue rate at 700°C under a nitrogen atmosphere rose from 11.56% of the base paper to 28.77% of the flame‐retardant paper. The flame‐retardant SAPU effectively improved the thermal stability of cellulosic paper. [ABSTRACT FROM AUTHOR]

Published

2024

40. Graphitic Carbon Nitride as a Promising Visible‐Light‐Activated Support Boosting Platinum Nanoparticle Activity in Ethanol Electrooxidation.

Author

Brugia, Mattia, Benedet, Mattia, Rizzi, Gian Andrea, Gasparotto, Alberto, Barreca, Davide, Lebedev, Oleg I., and Maccato, Chiara

Subjects

GREEN fuels, LOW temperature plasmas, ALCOHOL as fuel, ELECTROPHORETIC deposition, CARBON paper, PLATINUM nanoparticles

Abstract

In the present work, exfoliated graphitic carbon nitride (g‐CN) is immobilized on carbon paper substrates by a simple electrophoretic route, and subsequently decorated with ultra‐low amounts (≈μg/cm2) of Pt nanoparticles (NPs) by cold plasma sputtering. Optimization of preparative conditions allowed a fine tuning of Pt NPs size, loading and distribution and thus a controlled tailoring of g‐CN/Pt interfacial interactions. Modulation of such features yielded g‐CN‐Pt‐based anode materials with appealing activity and stability towards the ethanol oxidation reaction (EOR) in alkaline aqueous solutions, as revealed by electrochemical tests both in the dark and under irradiation. The present results provide new insights on the design of nano‐engineered heterocomposites featuring improved performances thanks to Pt coupling with g‐CN, a low‐cost and environmentally friendly visible light‐active semiconductor. Overall, this work might open attractive avenues for the generation of green hydrogen via aqueous ethanol electrolysis and the photo‐promoted alcohol electrooxidation in fuel cells. [ABSTRACT FROM AUTHOR]

Published

2024

41. Regioselective oxidation of recycled cellulosic fibres for enhancement in the mechanical strength of resulting papers.

Author

Satapathy, Mitra and Patankar, Saurabh C.

Abstract

The worldwide recycling rate for paper is about 60% and there are ongoing efforts to enhance the recycling rates to 80%. The low strength of recycled paper primarily due to the contaminants in it fetches lower value to the recycled paper in the market and also limits its recyclability. The ways to circumvent the problem of contamination of paper have been addressed by adding additives. However, the use of additives increases the cost of the final recycled paper. Oxidation has been explored as an alternative to enhance the tensile strength of paper in this work as it can be used in existing paper recycling facilities without any modifications. Pulp fibres were collected from an active paper recycling mill and subjected to oxidation at various oxidation levels from 0.25 up to 1.5 mmol/g. It was found that the tensile strength of the paper increased by up to 89% with an increase in oxidation level up to 1 mmol/g and later decreased with a further increase in the oxidation level up to 1.5 mmol/g. The brightness of the paper increased by up to 3% with an increase in oxidation level up to 0.85 mmol/g and then a decrease with further enhancement in the oxidation level. The oxidized samples were also studied with infrared spectroscopy, x‐ray diffraction, electron microscopy, and optical properties to study the behaviour of the resulting material. A ring crush test and corrugating medium test were also performed on the oxidized pulp samples to establish the feasibility of the material for packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

42. Advances and novel applications in systems reliability and safety engineering (selected papers of the International Conference of SRSE 2022).

Author

Peng, Weiwen, Xu, Ancha, and Hu, Jiawen

Subjects

INDUSTRIAL safety, SYSTEM failures, ARTIFICIAL intelligence, LIGHT water reactors, RELIABILITY in engineering

Abstract

The International Conference on System Reliability and Safety Engineering (SRSE) focuses on the reliability and safety of modern engineering systems due to their increasing complexity and importance. The conference, held annually, aims to advance methodologies and their applications in solving real-world problems. A special issue of Quality Reliability Engineering International highlights 11 papers from SRSE 2022, covering topics such as software-intensive systems, preventive maintenance, condition-based maintenance, Bayesian model calibration, and resilience assessment of rail transit systems. These papers offer valuable insights and methodologies for enhancing the reliability and safety of engineering systems in various applications. [Extracted from the article]

Published

2024

43. Influence of ZnO morphology on the capability of portable paper‐based electrospray ionization mass spectrometry to determine therapeutic drugs in complex matrices.

Author

Zhang, Yan, Huang, Yajie, Li, Yun, Zhang, Zhiming, Zuo, Qianqian, Zheng, Yajun, and Zhang, Zhiping

Abstract

Adsorbents play a significant role in enhancing the analytical sensitivity of target analytes in complex samples by mitigating matrix effects. In our recent report, ZnO stood out among various adsorbents to determine target therapeutic drugs in complex biological matrices when applied for portable paper‐based electrospray ionization mass spectrometry (PPESI‐MS). However, the influence of the morphology of ZnO on the performance of PPESI‐MS is elusive. Herein, different morphologies of ZnO particles were prepared via co‐precipitation or ultrasonic methods, and their capability to determine different therapeutic drugs in serum were systemically investigated. The results demonstrated that flower‐shaped ZnO gave a superior capacity, and its analysis sensitivity was 2.9–12.8‐fold higher than those achieved with other ZnO morphologies. Further characterization revealed that the unique performance of flower‐shaped ZnO was closely associated with its favorable desorption behavior to drugs, small spray plume, and few spray emitters at the tip of coated paper substrate. To illustrate the potential of flower‐shaped ZnO, its coated paper was used as a substrate for the determination of various drugs in complex matrices such as serum, and a limit of detection as low as 2 pg mL−1 was achieved. The corresponding recoveries ranged from 93.2% to 107.2%. The developed protocol is promising in high‐sensitivity analysis of target drugs in complex sample matrices. [ABSTRACT FROM AUTHOR]

Published

2024

44. Assessment of the Aryl Hydrocarbon Receptor–Mediated Effects of Aromatic Sensitizers in Paper Recycling Effluent Employing Zebrafish Embryos and in Silico Docking.

Author

Takeda, Kazuki, Sarata, Aoi, Terasaki, Masanori, Kubota, Akira, Shimizu, Keita, and Kamata, Ryo

Subjects

DEVELOPMENTAL toxicology, ARYL hydrocarbon receptors, MOLECULAR docking, BENZYL ethers, CHEMICAL reactions

Abstract

Aromatic sensitizers and related substances (SRCs), which are crucial in the paper industry for facilitating color‐forming and color‐developing chemical reactions, inadvertently contaminate effluents during paper recycling. Owing to their structural resemblance to endocrine‐disrupting aromatic organic compounds, concerns have arisen about potential adverse effects on aquatic organisms. We focused on SRC effects via the aryl hydrocarbon receptor (AHR), employing molecular docking simulations and zebrafish (Danio rerio) embryo exposure assessments. Molecular docking revealed heightened binding affinities between certain SRCs in the paper recycling effluents and zebrafish Ahr2 and human AHR, which are pivotal components in the SRC toxicity mechanism. Fertilized zebrafish eggs were exposed to SRCs for up to 96 h post fertilization; among these substances, benzyl 2‐naphthyl ether (BNE) caused morphological abnormalities, such as pericardial edema and shortened body length, at relatively low concentrations (1 μM) during embryogenesis. Gene expression of cytochrome P450 1A (cyp1a) and ahr2 was also significantly increased by BNE. Co‐exposure to the AHR antagonist CH‐223191 only partially mitigated BNE's phenotypic effects, despite the effects of 2,3,7,8‐tetrachlorodibenzo‐p‐dioxin being relatively well restored by CH‐223191, indicating BNE's AHR‐independent toxic mechanisms. Furthermore, some SRCs, including BNE, exhibited in silico binding affinity to the estrogen receptor and upregulation of cyp19a1b gene expression. Therefore, additional insights into the toxicity of SRCs and their mechanisms are essential. The present results provide important information on SRCs and other papermaking chemicals that could help minimize the environmental impact of the paper industry. Environ Toxicol Chem 2024;43:2176–2188. © 2024 SETAC [ABSTRACT FROM AUTHOR]

Published

2024

45. American Headache Society white paper on treatment of post‐traumatic headache from concussion in youth.

Author

Patterson Gentile, Carlyn, Rosenthal, Scott, Blume, Heidi, Rastogi, Reena Gogia, McVige, Jennifer, Bicknese, Alma, Ladak, Ali, Zaveri, Harshul, Greene, Kaitlin, and Barlow, Karen

Subjects

BRAIN injury treatment, HEADACHE treatment, MEDICAL protocols, PHYSICAL therapy, INTERPROFESSIONAL relations, SOCIAL determinants of health, HEADACHE, DISEASE management, SEX distribution, CONVALESCENCE, HEALTH behavior, HEALTH equity, BRAIN concussion, PHYSICAL activity, TIME, DISEASE complications, ADOLESCENCE

Abstract

Objective: To provide healthcare professionals guidance on youth at risk for prolonged recovery and post‐traumatic headache (PTH), and on pharmacologic and non‐pharmacologic management of PTH due to concussion and mild traumatic brain injury. Background: Headache is the most common persistent post‐concussive symptom affecting 8% of youth for >3 months after concussion. Over the past decade, many studies have explored the treatment of PTH in youth, but there are no established guidelines. Methods: This white paper is based on a synthesis of an updated systematic review of the literature on treatment of PTH and a narrative review of the literature on risk factors for prolonged recovery and health disparities. Results were interpreted by a group of expert providers in PTH in children and adolescents through collaboration of the PTH and pediatric special interest groups of the American Headache Society. Results: Factors that consistently were associated with prolonged recovery from concussion and persistent PTH included female sex, a high number of acute symptoms, and adolescent age. Social determinants of health also likely play an important role in PTH and deserve consideration in the clinical and research settings. A total of 33 studies met the criteria for inclusion in the systematic review of PTH treatment in youth, although most were retrospective and of fair‐to‐poor quality. Treatment strategies included acute and preventive pharmacologic management, procedures, neuro‐modulatory devices, physical therapy, physical activity, and behavioral health support. A collaborative care approach that includes a thoughtful combination of these management strategies is likely most effective. Conclusions: This white paper provides a roadmap for tailoring the treatment of PTH based on factors influencing prolonged headache, the timing of therapies, and therapies with the most evidence for treating PTH in youth. We also highlight research needed for developing more definitive guidelines on PTH management in youth. Plain Language Summary: Post‐traumatic headache (PTH) following concussion is a common and potentially disabling condition impacting youth, yet there are no standards for treatment. This article reviews current evidence and identifies knowledge gaps to guide future research. Based on the limited available evidence and expert opinion, we offer a roadmap for the treatment of PTH in children. [ABSTRACT FROM AUTHOR]

Published

2024

46. Advances in Paper‐Based Photodetectors: Fabrications, Performances, and Applications.

Author

Tang, Xing, Yang, Jingwen, Duan, Zaihua, Bu, Yichen, Yuan, Zhen, Jiang, Yadong, and Tai, Huiling

Subjects

PHOTODETECTORS, SPECTRAL sensitivity, BIODEGRADABLE materials, ELECTRONIC materials, WEARABLE technology, PHOTOELECTRICITY

Abstract

With the development of wearable electronic technology, the flexible photodetectors have attracted widespread attention, and it is of great significance to develop flexible, eco‐friendly and low‐cost photodetectors. Cellulose paper, as a flexible, eco‐friendly, low‐cost, lightweight, customizable, biodegradable and renewable material, has received enthusiastic attention and rapid development in the field of photodetectors in recent years. In this review, it is focused on the research progress of paper‐based (PB) photodetectors. First, the fabrication methods of PB photodetectors are discussed, including electrode materials and optoelectronic functional materials. Then, this review systematically summarizes and analyzes the achievements of PB photodetectors on photoelectric performances (spectral response range, responsivity, detectivity, response/recovery times and on/off ratio) and flexibility characteristics (bending angle and bending cycle). In terms of key performance indicators, the PB photodetectors reported so far can detect multiple wavelengths of light from UV to near‐infrared with the maximum detectivity of 1013 Jones. In addition, the various applications of PB photodetectors is reviewed and discussed. Finally, it is look forward to the future development of PB photodetectors in terms of fabrication methods, photoelectric and flexible performances, and applications. With this review, it is hope that it will promoted the future development of PB photodetectors. [ABSTRACT FROM AUTHOR]

Published

2024

47. Efficient Protection of Paper‐Based Cultural Relics via In Situ Synthesis of Carbon Dots/Layered Double Hydroxide.

Author

Zhao, Jinchan, Zhang, Mingliang, Wang, Sinong, Cui, Zhongjie, Dai, Zhenyu, He, Haiyang, Qin, Shuaitao, Mei, Shiliang, Zhang, Wanlu, and Guo, Ruiqian

Subjects

LAYERED double hydroxides, BLUE light, ACIDIFICATION, HYDROLYSIS, RELICS

Abstract

Paper‐based cultural relics are of great value and have been facing irreversible damage caused by multiple factors, among which acid hydrolysis and ultraviolet photodegradation are the main processes leading to paper deterioration. Paper protection highly relies on a limited range of materials with single functions, and the design of new materials that ensure long‐term safety and efficiency by simultaneously addressing the issues of acidification and UV degradation in paper is highly desired. In this study, the introduction of carbon dots (CDs)‐enhanced layered double hydroxides (LDH) 0D/2D nanohybrids (CDs/Mg‐Al LDH) is proposed as novel dual‐functional materials for paper protection against UV degradation and acidification. Through a CDs‐assisted in situ growth strategy, CDs/Mg‐Al LDH with ultrathin thickness (≈9.1 nm) and CDs‐intercalated structure are achieved. The CDs/Mg‐Al LDH nanohybrids demonstrate high dispersibility, strong UV absorption, and remarkable photostability, resulting in protected‐paper with decelerated acidification, oxidation, and yellowing degradation processes under both accelerated UV‐aging and dry‐heat conditions. Additionally, the protected‐paper can emit uniform blue light under 365 nm UV excitation allows for easy identification of the distributed CDs/Mg‐Al LDH within the paper, marking a unique and practical feature. This research paces a new direction for the protection of paper‐based relics with emerging carbon dots‐based 0D/2D nanomaterials. [ABSTRACT FROM AUTHOR]

Published

2024

48. Machine learning supported ground beef freshness monitoring based on near‐infrared and paper chromogenic array.

Author

Feng, Yihang, Wang, Yi, Beykal, Burcu, Xiao, Zhenlei, and Luo, Yangchao

Published

2024

49. The Electrochemical Hydrogen Evolution Reaction Based on Helical Chain Stacked 2D Tellurium Nanoflakes.

Author

Yu, Jing, Wang, Yingying, Liu, Wenjun, Fan, Xiaofeng, Duang, Yuhao, Zhang, Fan, and Jiang, Yanxiao

Subjects

GIBBS' free energy, HYDROGEN production, DENSITY functional theory, CARBON paper, HYDROGEN atom

Abstract

A crucial factor in advancing the broad utilization of electrocatalytic hydrogen evolution reaction (HER) is the development of efficient catalysts with sufficient active sites. Herein, a hydrothermal approach is utilized to fabricate helical chain stacked two‐dimensional (2D) tellurium (Te) nanoflakes, whose HER performance hasn't been systematically studied yet. It is found that Te nanoflakes transferred on carbon fiber paper (CFP) exhibit impressive HER properties and show a load dependence. The overpotential required for HER is significantly reduced to 279 mV under a load condition of 0.86 mg cm−2 at a current density of 10 mA cm−2. Density functional theory (DFT) calculations are further systematically carried out on Te catalytic sites along the helical chain at [0001] direction with a threefold screw symmetry. It is found that the Gibbs free energy of adsorbed hydrogen atom (ΔGH*) on Te sites is significantly lower than that of molybdenum disulfide (MoS2). Besides, the active sites based on surface atom density calculation reveal that Te provides more adsorption sites than layered MoS2. The decreased adsorption energy and efficient adsorption sites in Te may highlight the promising application of elemental crystal Te in electrocatalytic hydrogen production and pave the way for developing new types of electrocatalysts. [ABSTRACT FROM AUTHOR]

Published

2024

50. Have agricultural and applied economists lost sight of the land‐grant mission? A textual analysis of Presidential Addresses and Invited Papers from 1919–2022.

Author

Wilson, Norbert L. W. and Hochhaus, Natalie

Subjects

APPLIED economics, AGRICULTURAL economics, AGRICULTURE, CONTENT analysis, UNIVERSITIES & colleges

Abstract

Agricultural and applied economists have maintained a public discourse at the Agricultural and Applied Economics Association (AAEA) meetings and subsequently published papers discussing the mission of land‐grant institutions and the role of AAEA members in that mission. With a content analysis of 4001 Invited Papers and Presidential Speeches, we find agricultural and applied economists questioned their profession's purpose and role within the land‐grant system. The reflective questions still apply to land‐grant institutions and the agricultural and applied economics profession. We argue that AAEA members are crucial in addressing the food and agricultural challenges connected to society's deepest needs today and into the future. [ABSTRACT FROM AUTHOR]

Published

2024