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203. Comment on the paper "A couple stress of peristaltic motion of Sutterby micropolar nanofluid inside a symmetric channel with a strong magnetic field and Hall currents effect, Nabil T. M. El-Dabe, Galal M. Moatimid, Mona A. A. Mohamed, Yasmeen M. Mohamed, Archive of Applied Mechanics (2021) 91:3987–4010"

Author

Pantokratoras, Asterios

Subjects
*MICROPOLAR elasticity, *HALL effect, *MAGNETIC fields, *NANOFLUIDS, *ROTATION of the earth, *MOTION
Abstract

Some errors exist in the above paper. [ABSTRACT FROM AUTHOR]

Published
2024
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204. Agenda. Call for papers: VIII Congreso Internacional de Bioderecho. Universidad de Murcia, 25 y 26 de abril de 2024.

Author

Mercadal Cuesta, David

Abstract

The text is a call for papers for the VIII International Congress of Bioethics at the University of Murcia, taking place on April 25th and 26th, 2024. The congress is organized by the Center for Studies in Bioethics, Ethics, and Health at the University of Murcia, with the main theme being "Ethical and Legal Challenges of Nature Restoration." The congress will cover topics such as ethics and integrity in research, access to health data, and patient empowerment. The deadline for submitting abstracts is April 22nd, 2024, and interested individuals should provide a summary of 700-1000 words in either Spanish or English, including the title, presenter's information, and the chosen theme. More information can be found on the congress's website. [Extracted from the article]

Published
2024

205. The utilization of Solidity programming language in blockchain.

Author

Stanišić, Sava S., Stojanović, Hristina N., and Đorđević, Igor Lj.

Subjects
*BLOCKCHAINS, *PROGRAMMING languages, *PAPER products
Abstract

Introduction/purpose: This work provides a comprehensive overview of blockchain technology, elucidating its foundational principles and how it ensures transparency, immutability, and decentralization. The integration of Solidity with blockchain is explored through theoretical approach. Methods: This work meticulously dissects blockchain principles, elucidating transparency, immutability, and decentralization, while exploring Solidity integration in a theoretical framework, ensuring a comprehensive understanding of their intricate relationship and contributing to a broader comprehension of modern distributed ledger technology. Results: The resulting product of this paper will be getting useful knowledge about the technology that practically shapes the world. Conclusion: In conclusion, the adoption of Solidity as a programming language in blockchain technology has proven to be pivotal, enhancing smart contract functionality and overall system security. Its specialized features make it an indispensable tool for developers navigating the complexities of decentralized applications. [ABSTRACT FROM AUTHOR]

Published
2024
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215. Flexible electrochemical paper-based device for detection of breast cancer-derived exosome using nickel nanofoam 3D nanocomposite.

Author

Sahraei, Nafiseh, Mazloum-Ardakani, Mohammad, Moradi, Alireza, and Hoseynidokht, Farzaneh

Abstract

Exosomes as new biomarkers for cancer diagnosis have attracted attention because they are highly released by tumor cells in various biological fluids. In this study, an electrochemical paper-based immunosensor device (Exo-sensing paper) is introduced for the detection of exosome in the serum. The Exo-sensing paper is a three-electrode system that is prepared using pattern paper and carbon and silver inks. The sensor part of this immunosensor contains a three-dimensional porous nanocomposite of nickel nanofoam coupled with graphene oxide and gold nanoparticles. The high specific surface area of this nanocomposite increases the antibody loading on the sensor surface significantly and consequently leads to obtaining a wide linear range of 500–1 × 107 Exospore µL−1 with a detection limit of 110 Exosome µL−1. Due to some advantages of this constructed Exo-sensing paper such as easy storage, simple application, low cost and good selectivity in the real samples, this system has a good potential to be used as a point of care testing for in situ detection of the exosomes and is a promising strategy for minimally invasive liquid biopsy.Graphical abstract: Exosomes as new biomarkers for cancer diagnosis have attracted attention because they are highly released by tumor cells in various biological fluids. In this study, an electrochemical paper-based immunosensor device (Exo-sensing paper) is introduced for the detection of exosome in the serum. The Exo-sensing paper is a three-electrode system that is prepared using pattern paper and carbon and silver inks. The sensor part of this immunosensor contains a three-dimensional porous nanocomposite of nickel nanofoam coupled with graphene oxide and gold nanoparticles. The high specific surface area of this nanocomposite increases the antibody loading on the sensor surface significantly and consequently leads to obtaining a wide linear range of 500–1 × 107 Exospore µL−1 with a detection limit of 110 Exosome µL−1. Due to some advantages of this constructed Exo-sensing paper such as easy storage, simple application, low cost and good selectivity in the real samples, this system has a good potential to be used as a point of care testing for in situ detection of the exosomes and is a promising strategy for minimally invasive liquid biopsy. [ABSTRACT FROM AUTHOR]

Published
2024
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216. Matching papers and reviewers at large conferences.

Author

Leyton-Brown, Kevin, Mausam, Nandwani, Yatin, Zarkoob, Hedayat, Cameron, Chris, Newman, Neil, and Raghu, Dinesh

Subjects
*ARTIFICIAL intelligence, *CONFERENCES & conventions, *PROBLEM solving, *COMPUTER science conferences, *DATA analysis, *IMAGE registration
Abstract

Peer-reviewed conferences, the main publication venues in CS, rely critically on matching highly qualified reviewers for each paper. Because of the growing scale of these conferences, the tight timelines on which they operate, and a recent surge in explicitly dishonest behavior, there is now no alternative to performing this matching in an automated way. This paper introduces Large Conference Matching (LCM) , a novel reviewer–paper matching approach that was recently deployed in the 35th AAAI Conference on Artificial Intelligence (AAAI 2021), and has since been adopted (wholly or partially) by other conferences including ICML 2022, AAAI 2022-2024, and IJCAI 2022-2024. LCM has three main elements: (1) collecting and processing input data to identify problematic matches and generate reviewer–paper scores; (2) formulating and solving an optimization problem to find good reviewer–paper matchings; and (3) a two-phase reviewing process that shifts reviewing resources away from papers likely to be rejected and towards papers closer to the decision boundary. This paper also describes an evaluation of these innovations based on an extensive post-hoc analysis on real data—including a comparison with the matching algorithm used in AAAI's previous (2020) iteration—and supplements this with additional numerical experimentation.2 [ABSTRACT FROM AUTHOR]

Published
2024
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219. Photothermal Performance of Lignin-Based Nanospheres and Their Applications in Water Surface Actuators.

Author

Wen, Mingshan, Wang, Hang, Ma, Bole, and Xiong, Fuquan

Subjects
*ACTUATORS, *PHOTOTHERMAL effect, *PHOTOTHERMAL conversion, *FILTER paper, *CONTACT angle, *LASER therapy
Abstract

In this study, the photothermal performance of lignin-based nanospheres was investigated. Subsequently, a photothermal actuator was prepared using lignin-based carbon nanospheres (LCNSs). The results demonstrated that LCNSs exhibited an impressive photothermal conversion efficiency of up to 83.8%. This extreme efficiency significantly surpasses that of lignin nanospheres (LNSs) and covalently stabilized LNSs (HT-LNSs). As a structural material, a hydrophobic coating was effectively engineered by LCNSs on the filter paper, achieving a water contact angle of 151.9° ± 4.6°, while maintaining excellent photothermal effects (with a temperature increment from room temperature to 138 °C in 2 s). When employing hydrophobic filter paper as the substrate for the photothermaldriven actuator, under the influence of a 1.0 W/cm2 power–density NIR laser, the material exhibited outstanding photothermal actuation, achieving speeds up to 16.4 mm/s. In addition, the direction of motion of the actuator can be adjusted in accordance with the location of the NIR light irradiation. This study offers valuable perspectives on the application of LNSs for highvalue applications and the development of innovative photothermal-driven actuators. [ABSTRACT FROM AUTHOR]

Published
2024
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220. Filter-paper-derived CF/M/C (M = Co, Ni, or Fe/Fe3O4) 2D interlinked frameworks toward ultrawide absorption bands, high thermal conductivity, and excellent electrical insulation.

Author

He, Chenchen, Liu, Xinyu, Shen, Kejie, Xing, Lu, Zhuang, Jingrui, Huang, Bingran, Tong, Guoxiu, and Wu, Wenhua

Subjects
*ELECTRIC insulators & insulation, *THERMAL conductivity, *IRON oxides, *PACKAGING materials, *MAGNETIC flux leakage, *ABSORPTION, *ELECTRONIC packaging, *ANNEALING of metals
Abstract

Electron/phonon heat co-transfer, dielectric/magnetic dual loss, and 2D interlinked frameworks codetermine the ultrawide absorption bands, high thermal conductivity, and excellent electrical insulation of CF/M/C (M = Co, Ni, or Fe/Fe 3 O 4) 2D interlinked frameworks. [Display omitted] • A facile soaking-annealing strategy for CF/M/C (M = Co, Ni, Fe/Fe 3 O 4) 2DIFs. • Precisely modulating the interfaces, porosity, and defects. • Optimizing the thermal, electrical, and EMW absorbing properties. • Revealing the synergistic enhancement mechanism. Reasonable design of protective multifunctional materials is highly required for the safety protection of devices/personnel from electromagnetic radiation and heat damage in the 5G/6G era. Herein, a simple soaking-annealing route was adopted to carbonize filter paper into 2D interlinked carbon fiber frameworks inlaid with magnetic nanoparticles, and the products were referred to as CF/M/C 2DIFs (M = Co, Ni, or Fe/Fe 3 O 4). The concentration and type of metal ions as well as the annealing temperature of the CF/M/C 2DIFs were controlled to precisely modulate their composition, porosity, and defects. Results show that the CF/Co/C 2DIFs produced under T a = 600 °C and [Co2+] = 0.45 mol/L exhibit high thermal conductivity (2.931 ∼ 3.167 W/m·K) at small loads (10 ∼ 30 wt%) owing to not merely the presence of 2D interlinked path for electron/phonon heat co-transfer but the reasonable control of interface/defects for weakening phonon/electron defect/interface scattering. Also, the CF/Co/C 2DIFs can attenuate microwaves over a broad frequency range via dielectric/magnetic dual loss and 2DIFs, which boosts their loss ability and matching performance. The excellent performance in both heat dissipation and EM wave absorption proves that the CF/M/C 2DIFs can be a promising candidate for next-generation electronic packaging materials in heat management, military, and aerospace fields. [ABSTRACT FROM AUTHOR]

Published
2024
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221. An all paper based triboelectric nanogenerators with high output performance in extreme environment manufactured by multi-layer papers forming technology.

Author

Lin, Changmei, Chen, Jun, Huang, Hai, Ma, Xiaojuan, and Cao, Shilin

Subjects
*NANOGENERATORS, *EXTREME environments, *OPEN-circuit voltage, *SHORT-circuit currents, *GREEN technology, *POWER density
Abstract

[Display omitted] • Multi-layer forming technology can integrate triboelectric material with electrode. • The all CPTENGs can exhibit excellent humidity, acid and alkali resistance. • The CPTENGs can yield a V OC , I SC and power density of 227.1 V, 6.9 μA and 520 mW/m2. • Matching CPTENGs with P-ZISC can obtain a self-charging power system (PSCPS). • The PSCPS can drive some miniaturized electronics for a long time. Triboelectric nanogenerators (TENGs) are regarded as a promising technology to drive the development of flexible/wearable electronics and self-powering sensor. Application of cellulose paper as the triboelectric positive materials makes TENGs more environmentally friendly. However, the limited output performance and stability in harsh environments and oxidation and corrosion of the metal electrodes have limited the practical application of cellulose paper based triboelectric nanogenerators (CPTENGs). Here, we have integrated cellulose paper-based triboelectric material and electrode in one sheet by using multi-layer forming technology in paper industry; the upper triboelectric layer shows excellent triboelectric positive performance, hydrophobicity and acid and alkali resistance, while the bottom electrode exhibits promise conductivity. The all CPTENGs can yield a maximum open-circuit voltage (V OC) of 227.1 V, a short-circuit current (I SC) of 6.9 μA. Furthermore, the V OC values of the all CPTENGs increase from 0.02 V to 225.1 V at the load resistance of 100 Ω∼10 GΩ; and a power density of 520 mW·m−2 is also obtained at a load resistance of 30 MΩ. Moreover, the V OC of CPTENGs not only retains up to 78 % of its initial value at a high relative humidity of 90 %, but also almost maintains unchanged in a wide range of the pH environment (pH = 1∼13). More importantly, the CPTENGs can be readily matched with paper-based zinc supercapacitor (P-ZISC) to act as an all paper based self-charging power system (PSCPS). The PSCPS is capable of driving various miniaturized electronics, such as electronic watch, temperature/humidity indicator, demonstrating its potential application in a sustainable power source for portable and green electronics. [ABSTRACT FROM AUTHOR]

Published
2024
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222. Unveiling per- and polyfluoroalkyl substance contamination in Chinese paper products and assessing their exposure risk.

Author

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

Subjects
*FLUOROALKYL compounds, *PAPER products, *ETHANOL, *MICROWAVE heating, *RISK exposure
Abstract

[Display omitted] • 28 out of 57 target PFAS were detected in paper products from China. • 9 groups of PFAS with 1–3 confidence levels were identified by non-target analysis. • Ethanol in food simulants can increase the migration of PFAS. • Long-chain PFAS in popcorn bags can be degraded by microwave heating. • PFAS in some paper products exceeded the recommended daily intake values. The contamination characteristics, migration patterns and health risks of per- and polyfluoroalkyl substances (PFAS) were investigated in 66 Chinese paper products by using target and non-target screening methods. Among 57 target PFASs, 5 and 6 PFASs were found in the hygiene paper products (

Published
2024
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223. Facile synthesis and modification of Fe2O3 nanorod arrays on carbon paper as efficient negative electrodes for supercapacitors.

Author

Song, Zhiting, Shu, Kai, Hu, Hongming, Wu, Xiaohan, Tang, Xiao, Zhou, Xianju, Li, Yanhong, and Zhang, Yunhuai

Subjects
*SUPERCAPACITORS, *FERRIC oxide, *NEGATIVE electrode, *CARBON paper, *NANORODS
Abstract

In this research, Fe 2 O 3 nanorod arrays grown on carbon fiber paper were studied, and carbon-coated Fe 2 O 3 (Fe 2 O 3 @C) and sulfurized Fe 2 O 3 @C (Fe 2 O 3 @C-S) were fabricated by carbon coating and sulfurization processes. To promote the application of these materials in supercapacitors, their electrochemical properties were systematically investigated. Based on the results, the materials obtained utilized a pseudocapacitive mechanism for energy storage. Specifically, Fe 2 O 3 exhibited a moderate specific capacitance and extraordinary cycling stability, and no degradation was observed after 10,000 cycles. Impressively, sulfurization greatly enhanced the rate capability and specific capacitance of the sample. As a result, Fe 2 O 3 @C-S attained a specific capacitance of 976.4 mF cm–2 at 4 mA cm–2 and a robust rate capability of 97.30% at 20 mA cm–2, outperforming Fe 2 O 3 @C (84.39%) and Fe 2 O 3 (70.55%) and demonstrating good cycling stability (92.9%). Notably, Fe 2 O 3 @C-S was active as a positive electrode material; thus, a symmetric supercapacitor was assembled, which yielded a volumetric energy density of 1.46 mWh cm–3 at 16.71 mW cm–3 and maintained an energy density of 0.91 mWh cm–3 even at 145.63 mW cm–3. Moreover, the device exhibited good cycling stability with a capacity retention of 88.3% after 10,000 cycles at 10 mA cm–2. The integration of Fe 2 O 3 nanorod arrays on conductive substrates, coupled with the above modifications, strongly promoted the material's energy storage performance. Our study emphasized the significant potential of Fe 2 O 3 @C-S as an efficient electrode material for supercapacitors. • Fe 2 O 3 /CFP exhibited outstanding cycling stability with no capacity degradation. • Fe 2 O 3 @C-S showed greatly enhanced specific capacitance and rate capability. • Pore structure demonstrated a crucial factor in determining the performance. [ABSTRACT FROM AUTHOR]

Published
2024
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224. Cheap and portable paper chip with terrific oxidase-like activity and SERS enhancement performance for SERS-colorimetric bimodal detection of intracellular glutathione.

Author

Wang, Linjie, Chen, Yixin, Ji, Yang, Zheng, Shujun, Wang, Fei, and Li, Caolong

Subjects
*SERS spectroscopy, *GLUTATHIONE, *SILVER nanoparticles, *FILTER paper, *DETECTION limit, *BIOSENSORS
Abstract

Glutathione (GSH) acts a crucial role in the normal operation of manifold life activities and is closely bound up with many human diseases. Here, a SERS-colorimetric bimodal paper-based biosensor based on Mn-doped CDs/silver nanoparticles (Mn-CDs/AgNPs) has been fabricated for high-efficiency quantification of intracellular GSH. The Mn-CDs/AgNPs with fine oxidase-like characteristic and SERS enhancement ability has been assembled onto the Whatman filter paper (WFP) to cleverly fabricate paper chip (Mn-CDs/AgNPs@WFP) which can trigger the oxidation of colorless 3,3′,5,5′-tetramethylbenzidine (TMB) into blue TMBox and simultaneously enhance the SERS signal of TMBox. However, the introduction of GSH inhibits the oxidation of TMB, leading to color fading of paper chip and diminishment of SERS signal. Considering this, the bimodal paper-based sensing platform can be exploited for SERS-colorimetric detection of GSH, manifesting excellent selectivity, reliable stability, and satisfactory precision. The detection limits of SERS and colorimetric detection modes are as low as 0.41 μM and 0.53 μM, respectively. Furthermore, this proposed bimodal biosensor has been successfully utilized for the determination of intracellular GSH and validated by commercial GSH assay kit, which provides a mighty and convenient tool for intracellular GSH detection and can boost future effort about exploitation of other multimode paper-based biosensors as well as promote their appliances in disease diagnosis. [ABSTRACT FROM AUTHOR]

Published
2024
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225. Hydrophobic sisal cellulose paper-based TENG for collecting rain energy and raindrop-based sensor.

Author

Pan, Yating, Li, Ming, Lu, Yuxiang, Lu, Manli, Guo, Bin, Liu, Xianming, Zhang, Kaiyou, Wang, Yu, Feng, Liang, and Qin, Aimiao

Subjects
*CELLULOSE, *PERMITTIVITY, *DIPOLE moments, *LINEAR velocity, *DETECTORS
Abstract

• A hydrophobic TENG based on sisal cellulose paper(SCP) was constructed to collect raindrop energy. • Both physical and chemical hydrophobic modification can effectively improve the SCP's dielectric constant. • The hydrophobic SCP-TENG modified by the chemical method is more suitable than the physical method for collecting raindrop energy. • The output electrical signal of SCP-TENG and the raindrop velocity have linear relationship. • The hydrophobic SCP-TENG can be used as raindrop-based sensors. Hydrophobic Sisal cellulose paper (SCP) was obtained by surface modification of SCP via physical adsorbing polymer and chemical grafting monomer, respectively. The influence of surface modification conditioning on the hydrophobicity, dielectric constant and dipole moment of the SCP was investigated. The results showed that the hydrophobicity and dielectric constant of the modified SCP increased with the concentration and amount of the modifiers. The output electrical performance of the TENGs assembled by the two types of hydrophobic SCP for rain energy collection was compared. The output electrical performance of the chemically modified hydrophobic SCP-TENG is higher than that of the physical modified. The maximum power density of the former reaches 8.2 mW/m2. Furthermore, based on the linear relationship between the output performance (output voltage intensity and output current intensity) of hydrophobic SCP-TENG and the droplet velocity, a raindrop-based sensor based on hydrophobic SCP-TENG was successfully constructed and estimated. [ABSTRACT FROM AUTHOR]

Published
2024
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226. A convenient, environmental-friendly, panchromatic adjustable, re-writable photonic paper and its optical anti-counterfeiting application.

Author

Yan, Jingye, Lin, Yibin, Li, Jiaxin, Pan, Guoyi, Zhang, Jiaying, Zhang, Jieheng, Lin, Wenjing, Lin, Xiaofeng, Sun, Yingjuan, and Yi, Guobin

Subjects
*SOLUTION (Chemistry), *INFORMATION technology security, *IONIC strength, *PHOTONIC crystals, *STRUCTURAL colors, *ETHANOL, *METHACRYLATES
Abstract

[Display omitted] • A convenient, panchromatic adjustable, re-writable photonic paper was prepared. • Photonic paper exhibited excellent pH, temperature, ionic strength, and ethanol responsive properties. • Photonic paper had fast wetting capability and strong reconfigurability. • A time–temperature dependent optical anti-counterfeiting system was constructed. Multi-responsive re-writable photonic paper (MRPP) with inverse opal structure was prepared by introducing [poly(hydroxyethyl methacrylate)-poly(dimethylamino ethyl methacrylate)-poly(N-isopropyl acrylamide)] (PHEMA-PDMAEMA-PNIPAM) multi-responsive gel (MRH) into silica (SiO 2) photonic crystal (PC) template. First, monomers such as HEMA, DMAEMA, and NIPAM were filled into the SiO 2 PC template. Then, MRPP with dynamic responsive color change capability was prepared by ultraviolet (UV) curing and hydrofluoric (HF) etching. MRPP has temperature, pH, ionic strength, and ethanol concertration responsiveness, fast wetting capability (∼1.4 s), strong re-writability (∼600 cycles), and the ability to use inorganic salt solution as an environmental-friendly ink to achieve panchromatic adjustment. Based on the multiple responsiveness of MRPP and its difference in solvent volatility, a time–temperature dependent optical anti-counterfeiting system with higher security level and fast identification of encryption was successfully constructed. The excellent performance of MRPP indicates its great application value in the field of re-writable photonic paper as well as information security. [ABSTRACT FROM AUTHOR]

Published
2024
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227. Analysis of drug-impregnated paper samples seized in English prisons between 2018 and 2020.

Author

Akca, Asena Avci, Couchman, Lewis, Frinculescu, Anca, and Johnston, Atholl

Subjects
*PSYCHIATRIC drugs, *FORENSIC toxicology, *AMPHETAMINES, *DISEASE prevalence, *CANNABINOID receptors
Abstract

Novel psychoactive substances (NPS) in the form of impregnated papers delivered to prisoners are of particular concern in prison settings, where they are commonly used by vaping. The purpose of this study was to create a qualitative method for identifying the various emerging NPS impregnated onto paper samples sent to prisoners. It helps to demonstrate that these findings can be used to predict drug prevalence and trends in prisons. Between 2018 and 2020, 1250 non-judicial paper samples seized from 12 English prisons were analysed to determine the NPSs being circulated. Approximately 1 cm2 paper were cut and added to 50 % (v/v) methanol in LCMS-grade water. Vortex-mixing was used to prepare extracts (30 min). Q-TOF LC/MS was used to screen the extracts. This study showed that synthetic cannabinoid receptor agonist (SCRA) was the most common drug group detected in impregnated paper seizures in English prisons between 2018 and 2020, followed by cocaine, heroin type drugs (A) and amphetamine, ketamine type drugs (B). Male prisons had a higher prevalence of SCRAs, whereas female prisons had a higher prevalence of A drugs. Furthermore, lower security prisons were found to have a higher prevalence of B drugs, pregabalin, gabapentin type drugs (C), and abused and prescription drugs than higher security prisons which unveiled a higher prevalence of nicotine. The findings of this study have revealed new information about drug use in prisons. This study will also aid in the identification of drug smuggling routes into jails, keeping prison staff up to date with the trends. • SCRA was the most prevalent drug group detected in drug-impregnated papers. • SCRAs had higher prevalence in male prisons, wheareas female prisons presented higher prevalence of Class A drugs. • Lower security level prisons had higher prevalence of Class B, Class C drugs compared to higher security level prisons. [ABSTRACT FROM AUTHOR]

Published
2024
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228. Formal Methods for Industrial Critical Systems.

Author

Groote, Jan Friso and Huisman, Marieke

Subjects
*INDUSTRIALISM, *TECHNOLOGY transfer, *CONFERENCE papers, *STOCHASTIC analysis, *RESEARCH & development
Abstract

To stimulate the development and application of formal methods in industry, we need to promote research and development for the improvement of formal methods and tools for industrial applications, and we need to exchange experiences of the industrial usage of these methods and tools. This special issue of Software Tools for Technology Transfer presents various tools and experience reports that are targeting the use of formal methods in industry. The papers in this special issue are extended versions of selected conference papers from the proceedings of the 27th International Conference on Formal Methods for Industrial Critical Systems (FMICS 2022). [ABSTRACT FROM AUTHOR]

Published
2024
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229. A Framework for Measuring Relevancy in Discovery Environments: Increasing Scalability and Reproducibility.

Author

Galbreath, Blake, Merrill, Alex, and Johnson, Corey M.

Abstract

Institutional discovery environments now serve as central resource databases for researchers in the academic environment. Over the last several decades, there have been numerous discovery layer research inquiries centering primarily on user satisfaction measures of discovery system effectiveness. This study focuses on the creation of a largely automated method for evaluating discovery layer quality, utilizing the bibliographic sources from student research projects. Building on past research, the current study replaces a semiautomated Excel Fuzzy Lookup Add-In process with a fully scripted R-based approach, which employs the stringdist R package and applies the Jaro-Winkler distance metric as the matching evaluator. The researchers consider the error rate incurred by relying solely on an automated matching metric. They also use Open Refine for normalization processes and package the tools together on an OSF site for other institutions to use. Since the R-based approach does not require special processing or time and can be reproduced with minimal effort, it will allow future studies and users of our method to capture larger sample sizes, boosting validity. While the assessment process has been streamlined and shows promise, there remain issues in establishing solid connections between research paper bibliographies and discovery layer use. Subsequent research will focus on creating alternatives to paper titles as search proxies that better resemble genuine information-seeking behavior and comparing undergraduate and graduate student interactions within discovery environments. [ABSTRACT FROM AUTHOR]

Published
2024
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230. The 2023 Robert W. Cahn best paper award.

Author

Norton, M. Grant

Subjects
*AWARDS, *MATERIALS science, *STRAINS & stresses (Mechanics)
Abstract

The Journal of Materials Science awards the annual Robert W. Cahn Prize to recognize the best paper published in the journal each year. The winner of the 2023 Cahn Prize is a research paper titled "Molecular modelling of graphene nanoribbons on the effect of porosity and oxidation on the mechanical and thermal properties." The paper presents molecular simulation models of graphene nanoribbons and examines the impact of porosity and oxidation on their mechanical and thermal conductivity properties. The paper is well-written and provides valuable insights for researchers in this field. Two other papers were selected as runners-up for the prize. All the monthly finalists for the Cahn Prize can be downloaded for free on the journal's website. [Extracted from the article]

Published
2024
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231. Journal of Robotics and Mechatronics Best Paper Award 2023 Congratulations!

Subjects
*AWARDS, *MECHATRONICS, *ROBOTICS, *AWARD presentations, *CUTTING force
Abstract

We are pleased to announce that the 16th Journal of Robotics and Mechatronics Best Paper Award (JRM Best Paper Award 2023) has been decided by the JRM editorial committee. The following paper won the JRM Best Paper Award 2023, severely selected from among all 113 papers published in Vol.34 (2022). The Best Paper Award ceremony was held on December 26, 2023 in hybrid style (both on-site and online; venue: Gakushi-Kaikan, Tokyo, Japan), attended by the authors and JRM editorial committee members who took part in the selection process. The award winners were given certificates and a JPY100,000 honorarium. Editorial committee members who participated online also congratulated them through Zoom. We congratulate the winners and sincerely wish them success in the future. Teppei Tsujita, Yuto Inoue, Yutaka Takagi, Atsushi Konno, Satoko Abiko, Xin Jiang, Atsuhiro Nakagawa, and Masaru Uchiyama Development of Haptic Interface for Neurosurgical Simulators with Micro Scissors Module for Displaying the Cutting Force Journal of Robotics and Mechatronics, Vol.34, No.6, pp. 1284-1296, December 2022 [ABSTRACT FROM AUTHOR]

Published
2024
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232. Flexible ceramic based 'paper separator' with enhanced safety for high performance lithium-ion batteries: Probing the effect of ceramics impregnation on electrochemical performances.

Author

Das, Mononita, Ghosh, Kuntal, and Raja, Mir Wasim

Subjects
*CERAMIC materials, *LITHIUM-ion batteries, *ALUMINUM oxide, *CERAMICS
Abstract

Cellulose is now considered as an appealing environment friendly material for the development of sustainable separators for rechargeable batteries. This study thus aims to develop high performance paper based ceramic separators with superior electrolyte wettability (>170 %), high thermal stability (>200 °C) and excellent flame safety. While developing paper based ceramic separator, extensive studies are carried out to understand thenature and functionality of different nano-structured ceramic materials (Al 2 O 3 , BaTiO 3 and ZrO 2) impregnated in paper matrix. Nano-ZrO 2 facilitates an effective pathway for Li +-ion transport (t Li + = 0.51), whereas BaTiO 3 and Al 2 O 3 ceramics show moderate Li +-ion transport properties (t Li+ of 0.29 and 0.30 respectively). Electrochemical Impedance Spectroscopy (EIS) measurement clearly reveals that ZrO 2 exhibits more interfacial compatibility with the electrodes (MCMB and LiNi 1/3 Mn 1/3 Co 1/3 O 2) compared to the other two ceramic separators during full cell operation. The developed paper separators show excellent electrochemical properties in terms of cycling (tested 300 cycles), multi-electrode compatibility and rate capabilities at different current densities of 0.1–1.2 mAcm−2. The pre- and post-electrochemical EIS data reveal that ZrO 2 based impregnation offers significantly lower charge transfer resistance compared to the other two separators. The study thus demonstrates a real promise for its successful application in Li-ion battery towards achieving sustainability and safety. [Display omitted] • Sustainable, flexible and high safety ceramic based paper separators for LIBs. • Separators were developed using easy to scale up wet-coating process. • Ceramic impregnation affects physical and electrochemical properties of the separators. • Paper separators show superior electrolyte wettability and high thermal stability. • Better electrochemical performances and flame safety are other important advantages. [ABSTRACT FROM AUTHOR]

Published
2024
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233. Surface property enhancement of impregnated paper decorative panel by MUF-polyelectrolyte complex@Nano-Al2O3 blending.

Author

Ma, Longchao, Peng, Haozhe, Wang, Xinzhou, Chen, Liang, Mao, Shengfeng, and Li, Yanjun

Subjects
*SURFACE properties, *FIREPROOFING, *POLYETHYLENEIMINE, *BOND strengths, *TENSILE strength, *THERMAL stability, *ABRASION resistance
Abstract

The surface properties of melamine-urea-formaldehyde (MUF) impregnated paper decorative panels are unsatisfactory, characterized by brittle surfaces, poor abrasion resistance, and limited flame retardancy. A modification was introduced to the MUF resin by incorporating a blend of polyelectrolyte complex polyethyleneimine (PEI)-phytic acid (PA) and Nano-Al 2 O 3 with the aim of enhancing the surface properties of the decorative panel. The modified resin underwent characterization, and subsequent analyses were conducted to investigate the properties of both the modified impregnated paper and the decorative panel. The results showed that the thermal stability of the modified resin was improved with a curing temperature of 124 °C. In comparison to the control, the modified impregnated paper showed an increase of 146.0 % in tensile strength and 154.5 % in elongation at break. The improved toughness of the modified MUF-impregnated paper resulted in a notable upsurge in both surface bond strength and cracking resistance of the decorative panel. The combustion test results indicated that the modified impregnated had a LOI value of 40.0 % and self-extinguishing behavior. In addition, due to the inclusion of Nano-Al 2 O 3 , the decorative panel exhibited a low abrasion value of only 14.1 mg/100r. Overall, the technology proposed in this study can improve the surface properties of decorative panels, increase their added value, and provide a new strategy for modifying MUF resin in the impregnated paper-decorated wood-based panels industry and for researchers. [Display omitted] • MUF resin was modified using polyelectrolyte complex (PEI-PA) and Nano-Al 2 O 3. • Modified impregnated paper exhibited superior toughness and flame retardancy. • Blockboard with modified impregnated paper showed greatly improved surface properties. [ABSTRACT FROM AUTHOR]

Published
2024
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234. Highly catalytic Prussian blue analogues and their application on the three-dimensional origami paper-based sweat sensors.

Author

Chen, Wei-Ting, Yan, Chi-Fong, Yu, Cheng-Ju, Liao, Ying-Chih, and Chen, Chien-Fu

Subjects
*PRUSSIAN blue, *HIGH performance liquid chromatography, *CHARGE exchange, *ORIGAMI, *DETECTORS, *LACTATES
Abstract

Prussian blue analogues (PBAs) are promising materials due to their rich active sites and straightforward synthesis. However, their limited conductivity and electron transfer inefficiency hinder practical applications. This study utilizes a simple one-pot synthesis approach to produce a tungsten-disulfide (WS 2) and iron-cobalt Prussian blue analogue composite (WS 2 -PBA), enhancing conductivity and electron transfer rate performance. Through the inclusion of sodium citrate into the solution, the S-edge site concentration of WS 2 increases. This augmentation introduces additional active sites and defects into the catalyst, enhancing its catalytic activity. The effectiveness of the WS 2 -PBA 3D-Origami paper device for lactate detection in sweat is also evaluated for biomedical applications. The device demonstrated a robust relationship between the lactate concentration and current intensity (R2 = 0.997), with a detection limit of 1.83 mM. Additionally, this platform has successfully detected lactate in clinical sweat, correlating with the high-performance liquid chromatography test results, suggesting promising prospects for clinical diagnosis. In the future, the excellent catalytic and R ct performance of the WS 2 -PBA will enable its use in biomedical applications. [ABSTRACT FROM AUTHOR]

Published
2024
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235. The diffusion behavior of H3O+ in insulation systems composed of paper cellulose and modified natural ester insulating oil.

Author

Li, Hexing, Wu, Yingrui, Chen, Rui, Chen, Jianhua, Wang, Zuhao, and Tang, Chao

Subjects
*INSULATING oils, *OXONIUM ions, *ESTERS, *MINERAL oils, *HYDROGEN bonding, *CELLULOSE
Abstract

• Nano-modified natural ester- paper cellulose interface can adsorb more H 3 O+. • Acids in paper cellulose is significantly reduced after nano-modification. • Nano-modification enhanced the ageing resistance of natural ester- paper cellulose system. The oil-paper insulation system will be affected by the synergistic effects of moisture and acids during long-term stable operation of the transformer. The moisture in the oil can be combined with the H+ionized from the acid molecules in the form of H 3 O+ by coordination, thus changing the proportion of acid distribution in the insulating oil and paper cellulose. Natural ester insulating oil, as a new development trend to replace mineral oil, can be significantly improved by adding nanoparticles to them. The diffusion behavior of H 3 O+ in paper cellulose and nano-SiO 2 -modified soybean oil-based natural ester insulating oil insulating system has been investigated using molecular dynamics in this article. The results indicate that the incorporation with nanoparticles is effective in mitigating the impact of temperature on the diffusion behavior of H 3 O+ in oil-paper insulation. Compared with the unmodified model, the nano-modified model results in a significant reduction in the concentration distribution of H 3 O+ in paper cellulose. The hydroxyl and ether bonds in paper cellulose will interact with H 3 O+ to generate hydrogen bonds and destroy its original hydrogen bonding network, while nanoparticles can inhibit diffusion by adsorbing H 3 O+ through hydroxyl oxygen atoms. [ABSTRACT FROM AUTHOR]

Published
2024
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236. Sustainable metal-organic framework based paper sheet as wallpaper for passive indoor moisture control.

Author

Ding, Dong, Søndergaard Rasmussen, Oliver, and Qin, Menghao

Abstract

• A novel MOF-based paper sheet was developed for passive indoor moisture control. • The MOF paper sheet has excellent moisture buffer capacity and mechanical properties. • A numerical model was developed to find the optimal thickness of the MOF paper sheet. • The energy-saving potential of wallpaper made of MOF paper sheet was investigated. Passive indoor moisture control is a meaningful way to reduce HVAC operation and improve building energy efficiency. Metal-organic frameworks (MOFs) have been considered one of the most promising sorbent materials for passive indoor moisture control. However, the powder form of MOF is challenging to use in the built environment. Typical shaping methods like pellets, beads, and coating can lead to problems like partial pore blocking, insufficient mechanical stability, amorphization, and low material utilization. Here, we report a new sustainable MOF paper sheet comprising 25% cellulosic fibers and 75% MOF MIL-100(Fe) powder. The porous polymer matrix provides good support and fixation for MOF particles, so it's more applicable in the built environment. The crystalline and pore structure characteristics of the MOF in the membrane are well preserved. Hydro characteristic test results show that MIL-100(Fe) paper sheet has high water vapor uptake, S-shape isotherm, mild regeneration condition, and high MBV. Then, a numerical model was developed to calculate the relation between a material's MBV and its thickness. MIL-100(Fe) paper sheet with the most efficient thickness was applied as wallpaper in a building energy simulation model. The simulation result shows that the MIL-100(Fe) paper sheet is promising for passive indoor moisture control. It can remove about 45%-55% of the latent cooling load in most European climate types. [ABSTRACT FROM AUTHOR]

Published
2024
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237. Biomimetic cascade intelligent paper chip sensor based on bimetallic porphyrin-based covalent organic framework with triple-enzyme mimetic activities.

Author

Bai, Yujiao, Gao, Wenqing, Wei, Jinhao, Yu, Bing, Zhang, Lina, Zhu, Peihua, and Yu, Jinghua

Subjects
*METALLOPORPHYRINS, *BIOMIMETICS, *MALATHION, *DETECTORS, *SCHIFF bases, *BIMETALLIC catalysts, *DETECTION limit
Abstract

• A novel bimetallic nanozyme (COF Fe/CoP-Ph) displayed excellent triple-enzyme mimetic activities. • The multiple enzyme-driven cascade catalysis strategy was proposed. • The colorimetric determination of malathion was achieved without the addition exogenous H 2 O 2. • A smartphone POCT analysis platform with integrated paper chip sensors was developed. Enzyme-induced biological cascade catalysis can achieve selective and efficient transformations of substrates in vivo. Thus, the biomimetic cascade systems have attracted much attention in biological detection on account of their ingenious strategies for signal conduction and amplification. In this study, a porphyrin-based covalent organic framework (COF Fe/CoP-Ph) with bimetal-nitrogen-coordinate centers (M − N 4) were constructed via Schiff base reaction. The synergistic effect of the highly exposed M − N 4 bimetallic active sites and the unique topology overcame the self-limitation of nanozyme, resulting in a significant enhancement of the triple-enzyme mimetic activities of COF Fe/CoP-Ph , namely oxidase (OXD)-, peroxidase (POD)-, and catalase (CAT)-like activities. Simultaneously, a multiple enzyme-driven cascade catalysis strategy for signal amplification was proposed utilizing the OXD- and POD-like mimetic mechanisms of COF Fe/CoP-Ph , enabling the colorimetric determination of malathion without the addition exogenous H 2 O 2. The established colorimetric sensor exhibited an exceptional linear relationship within the range of 1–18 μM and a low detection limit of 11 nM. Subsequently, a portable smartphone platform was developed by integrating paper chip, facilitating successful malathion point-of-care testing (POCT) in real samples. This work not only creates a bimetallic COF nanozyme and establishes an efficient cascade amplification strategy, but also introduces a novel design approach for development of a low-cost and user-friendly POCT method. [ABSTRACT FROM AUTHOR]

Published
2024
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238. All-natural, hydrophobic, strong paper straws based on biodegradable composite coatings.

Author

Yi, Zede, Fu, Shiyu, Zhang, Jinlong, Kong, Yi, and Shen, Juanli

Subjects
*DRINKING straws, *STEARIC acid, *CONTACT angle, *SURFACE coatings, *FLEXURAL strength, *SUSTAINABLE development, *TENSILE strength, *COMPOSITE coating
Abstract

Plastic-coated paper straws are insufficient to solve the plastic pollution problem because microplastics are formed during their degradation. In this study, upgraded paper straws were prepared by coating with biodegradable sodium alginate/cellulose nanofiber/stearic acid (SA/CNF/STA) on the surface of paper without additional adhesives. The tensile strength of the paper was enhanced synergistically by the coated SA and CNF after cross-linking with Ca2+ ions, reaching a maximum (26.46 MPa) when the mass ratio of SA to CNF was 4:1. The straws were prepared by spirally winding coated paper into tubes. Subsequent STA modification with different concentration (1–40%) improved the water stability of the paper straws. The paper straws exhibited excellent mechanical properties (including 13.45 MPa of flexural strength, 13.30 MPa of compressive strength) and hydrophobicity (103.67° of maximum water contact angle). After 130 days of soil burial, the paper straws were completely degraded. The comprehensive performance of prepared straws exceeds that of commercially available products in the same category, and they are safe and biodegradable. Paper straw in the work is in line with the concept of green and low-carbon development. [Display omitted] • Processing a paper straw based on biomass resource coatings. • SA/CNF hybrid coating synergistically enhanced the tensile strength of the straw. • The STA imparts satisfactory water stability to the straw. • The comprehensive performance of the straw outperforms commercial straw products. [ABSTRACT FROM AUTHOR]

Published
2024
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239. Distance-based paper sensor for DNase I detection based on aptamer-mediated enzyme cascade reaction.

Author

Gao, Shan, Tai, Wenjun, Liu, Jinpeng, Zhang, Qiang, Wei, Yong, Song, Ping, and Yu, Li

Subjects
*APTAMERS, *WATERMARKS, *ENZYMES, *DETECTORS, *THROMBIN, *DETECTION limit
Abstract

• A distance-based paper sensor for the detection of DNase I is developed. • The quantitative detection of DNase I is achieved by measuring the watermark on the indicator paper. • This method exhibits the advantages of the aptamer-mediated enzyme cascade reaction, low-cost, and label-free detection. DNase I is proven to be an early predictive molecule for a variety of diseases, which is important for early diagnosis and clinical detection of diseases. Herein, we demonstrate a distance-based paper sensor to detect DNase I via an enzymatic cascade reaction mediated by the thrombin aptamer. In the presence of DNase I, the thrombin is able to clot the plasma normally because the aptamer chain is hydrolyzed by DNase I and cannot bind thrombin properly to inhibit thrombin activity. The concentration of DNase I is negatively correlated with the volume of mobile phase in sample solution, and it can be quantified by measuring the flow distance of water on the pH indicator strip. The distance-based paper sensor has good specificity, and the detection limit is 2 × 10−2 U/mL. In addition, it can be used for DNase I analysis in human serum samples to show its efficacy in the early diagnosis of diseases associated with DNase I activity. Overall, we developed a simple, fast and low-cost DNase I detection method, which has great commercial potential. [ABSTRACT FROM AUTHOR]

Published
2024
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240. The impact of EID policy and trade on the environmental effects of Chinese paper enterprises from the perspective of financial constraints.

Author

Feng, Shuo, He, Dan, and Chen, Ke

Subjects
*ENVIRONMENTAL policy, *ENVIRONMENTAL reporting, *DISCLOSURE, *EMISSIONS (Air pollution), *PAPERMAKING, ECONOMIC conditions in China
Abstract

Accompanying China's accession to the World Trade Organization, the rapid development of the Chinese economy has led to increasingly serious environmental issues. However, the inherent mechanisms underlying the impact of Environmental Information Disclosure (EID) policy and trade on the environmental effects of Chinese paper enterprises remain unclear in the context of the era's requirement for a resource-conserving and environmentally-friendly society. The pollution problem in the papermaking industry has received attention worldwide, and how to balance the environmental and development issues of papermaking enterprises is an urgent issue that needs to be solved in the academic community. This study explores the impact mechanisms of EID policy and trade on the environmental effects of enterprises from the perspective of financial constraints. Utilizing the PSM-DID model, the study investigates the moderating effects of financial constraints on the EID policy and import-export trade. The findings reveal that both external and internal financial constraints have negative, detrimental effects on the environmental effects of the EID policy and trade. These constraints impede research and development investment and technological upgrades, hinder productivity improvement, and hamper the realization of "regulatory and trade innovation effects". This study enriches our understanding of the mechanisms by which trade affects the environmental effects of Chinese paper enterprises and further identifies the impacts of Chinese EID policy and trade on pollution emissions by enterprises, providing a theoretical basis and practical foundation for the government in formulating financial, environmental, and trade policies. • Analyzing the environmental effects of Chinese paper enterprises from the perspective of financing constraints. • This study validated the research hypothesis using three micro databases. • This study decomposes the impact mechanism into three aspects: scale effects, technical effects, and structural effects. [ABSTRACT FROM AUTHOR]

Published
2024
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241. Post-fabrication adjustment of metalloid Mg–C-graphene nanoparticles via Pulsed Laser Ablation for paper electronics and process optimisation.

Author

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

Subjects
*PROCESS optimization, *LASER ablation, *PULSED lasers, *SEMIMETALS, *PRINTED electronics, *COLLOIDS, *LASER pulses
Abstract

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

Published
2024
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242. Dendrite-free lithium metal battery enabled by mesoporous silica host layer mediated cellulose/PVDF Janus separator.

Author

Qi, Xingtao, Huang, Zhuqing, Zhang, Ze, Wei, Junchao, and Yang, Zhenyu

Subjects
*MESOPOROUS silica, *LITHIUM cells, *CELLULOSE, *COMPOSITE structures, *POLYVINYLIDENE fluoride, *STORAGE batteries
Abstract

[Display omitted] The commercialization of lithium metal batteries (LMBs) is encountering significant challenges due to the electrolyte incompatibility and poor mechanical properties of polyolefin separators, as well as the hazardous growth of lithium dendrites at the anode. Simultaneously, the development of safe and environmentally-friendly separators has become a central focus in rechargeable battery technology. In this study, we introduce a novel Janus separator (CP@SiO 2), featuring a composite structure with cellulose paper (CP) as the base layer and electrospun polyvinylidene fluoride (PVDF) nanofibers as the top layer. The nanofibers are uniformly coated with mesoporous SiO 2 nanoparticles through hydrogen bonding. The CP@SiO 2 separator leverages its three-dimensional lithium-ion channels and rigid ceramic particles to enhance electrolyte retention and stabilize lithium metal anodes (LMA). Shielded by this separator, LMA exhibits an impressive cycling performance, enduring a current density of 2 mA cm−2 for 350 h without short-circuiting, effectively doubling the cycle life compared to conventional PP separators. Furthermore, the Li/LiFePO 4 cell utilizing the CP@SiO 2 separator demonstrates a high capacity of 101 mAh·g−1 at 5C, with 90 % capacity retention after 1000 cycles. This outstanding electrochemical performance is attributed to the compatible anode/separator interface and the effective inhibition of lithium dendrite growth. The research presented in this work capitalizes on a synergistic configuration design, offering a promising pathway towards the development of high-safety and advanced lithium-ion separators. [ABSTRACT FROM AUTHOR]

Published
2024
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244. The court's judgment on the true identity of the author responsible for identity fraud and the consequent batch retraction of Iranian's papers in the journal of diagnostic pathology.

Author

Mokarizadeh, Aram

Subjects
*IDENTITY theft, *LEGAL judgments, *SPAM email, *ACQUISITION of manuscripts, *RETRACTORS (Surgery), *PATHOLOGY
Abstract

This letter concerns retracted papers published in the Journal of Diagnostic Pathology, where my name was misused as the author or corresponding author without my permission or knowledge. Considering that all misconducts were directed by an author during initial manuscripts' submissions, I opened a case in Iran's Cyber Police (FATA) to unravel the true identity of the submitting author. After Cyber Police's report revealed the true identity of the submitting author, the court started a thorough investigation and finally convicted the submitting author for identity fraud and data forgery through creating and using fake email addresses. [ABSTRACT FROM AUTHOR]

Published
2024
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245. Mechanical and surface properties of standard writing and printing papers coated with alternating layers of Amazonian Paricá nanofibrils and cassava starch.

Author

Scatolino, Mário Vanoli, de Melo, Rafael Rodolfo, de Oliveira Paula, Edgley Alves, Martins, Maria Alice, Tonoli, Gustavo Henrique Denzin, Esposito, Antonella, and Mendes, Lourival Marin

Abstract

Using nanostructured materials issued from renewable resources could be the key to the development of good-quality low-cost products that help reduce pollution. Cellulose nanofibrils (CNFs) were obtained by alkaline and bleaching treatments of Amazonian Paricá hardwood sawdust, a waste material from the Brazilian forestry industry. This study evaluated a process consisting in alternating layers of Paricá CNFs and cassava starch to coat standard writing and printing (W&P) papers with a skim-coating method, in which one face of each paper sample is passed over the surface of a suspension containing either CNFs or cassava starch, alternatively. The coated samples were then compared to the uncoated paper in terms of mechanical and surface properties. The mechanical properties of the papers coated with alkaline CNFs showed a declining trend as the number of coating layers increased (from 47 to 31 MPa). The papers coated with starch layers showed improved mechanical performance compared to the samples only coated with alkaline and alkaline bleached CNFs. All the coated samples showed excellent resistance to water degradation. The worst degradation (4%) was observed for the samples coated with a single layer of alkaline CNFs. A significant improvement in surface wettability was observed when gelatinized cassava starch was applied to the paper samples, irrespective of the type of CNFs eventually present on the surface. All in all, these results suggest that using gelatinized cassava starch as an alternating layer between successive CNFs layers on the surface of W&P paper samples may be promising for improving their overall properties. [ABSTRACT FROM AUTHOR]

Published
2024
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246. Adaptation and operationalisation of sustainable degrowth for policy: Why we need to translate research papers into legislative drafts?

Author

Strzałkowski, Andrzej

Subjects
*LEGISLATION drafting, *CLIMATE change, *LITERATURE reviews, *LEGAL language, *PHYSIOLOGICAL adaptation, *RESEARCH personnel
Abstract

Sustainable degrowth offers effective alternative strategies for tackling social and environmental problems such as climate crisis, resource depletion, biodiversity loss, and species hecatomb. However, it plays a marginal role in policy. Moreover, researchers need to operationalise many degrowth proposals in a more sufficient way for the policy. This mainly conceptual-methodological article conceptualises the problem of sustainable degrowth in policy as the problem of knowledge utilisation. How well research papers on the topic adapt to the needs of policy-makers is an important factor influencing this utilisation. This adaptation is under the control of researchers and may be seen as a necessary first step in the introduction of degrowth proposals into policy-making and further implementation. I argue that translating research papers into legislative drafts by researchers can be understood as adaptation of these papers to the policy-makers' needs. This is because the law can be understood as universal basis of public policies and fundamental language to express these policies. The legal system has a systematic, hierarchical, and logical structure while its language tends to be precise, clear, and unambiguous. Legal language may also be salient for many policy-makers. I labelled this way of adaptation as the Translational Legal Approach to Knowledge Utilisation (TLA). It can be applied beyond texts on sustainable degrowth as well. Based on the literature review, I theoretically and conceptually discuss the aforementioned hypotheses by looking at the corresponding criteria of research adaptation with characteristics of law and legal language. I provide the strongest support for the theses that translation of research papers into provisions of legislative drafts can increase readability, comprehensibility, precision, and operationalisation of degrowth research proposals, as well as helps to give them more systemic nature and incorporate policy-makers' context. Future research is needed to create a methodological framework for TLA as well as to empirically verify hypotheses made in this article. • Degrowth plays a marginal role in policies and needs better operationalisation. • The role of degrowth in policy can be seen as a problem of knowledge utilisation. • Law could be a common language between researchers and policy-makers. • Translating research papers into legislative drafts adapts them for policy-makers. • Translating degrowth proposals into legislative drafts supports their utilisation. [ABSTRACT FROM AUTHOR]

Published
2024
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247. Fabrication of a laser-directed electrochemical paper analytical device and its deployment for multi-functional electrochemical sensing.

Author

Mahapatra, Supratim, Kumari, Rohini, and Chandra, Pranjal

Subjects
*X-ray photoelectron spectroscopy, *LASER engraving, *ELECTROCHEMICAL sensors, *ALKALINE phosphatase, *SCANNING electron microscopy, *CAD/CAM systems
Abstract

[Display omitted] • A laser-derived paper-based three electrode system was fabricated. • The electrodes were thoroughly characterized physically and electrochemically. • The multi-functional sensing ability of the fabricated electrodes was demonstrated. • The chemically engineered electrodes offered great reproducibility and reliability. • Real sample assessment included small molecules, free radicals, and macromolecules. The demand for eco-friendly, disposable, and affordable electrochemical sensors stimulates the fabrication of laser-directed paper-based electrodes. This work reports the fabrication of laser-derived patterns on the paper substrate and its multi-functional sensing applications. For this, a computer-aided design (CAD) software-driven computer numerical control (CNC) manufacturing method was developed to engrave a three-electrode design on a paper substrate. The fabricated L aser- D irected e lectrochemical P aper A nalytical D evice (LD-ePAD) was thoroughly characterized by Fourier-transform infrared spectroscopy (FTIR), Raman spectroscopy, X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), contact angle analysis, electrochemical impedance spectroscopy (EIS), and the cyclic voltammetry (CV). After that, we demonstrated the multi-functional sensing ability of the LD-ePADs by detecting diverse model analytes, including small molecules (i.e., lead ions [Pb2+]), free radicals (i.e., peroxide [H 2 O 2 ]), and macromolecules (i.e., Alkaline phosphatase [ALP]). Upon investigation, it exhibits a fair detection limit of 5.19 (±0.21) µM for Pb2+, 48.66 (±0.31) µM for H 2 O 2 , and 0.48 (±0.02) U/L for ALP. The LD-ePADs' outstanding repeatability, stability, abundance of catalytic active sites, remarkable tunability, and potential for nano-bioengineering emphasized their tremendous commercial feasibility. To the best of our knowledge, this is the first study to use controlled one-step laser direct engraving to fabricate a three-electrode setup on a paper-substrate that can sense three heterogeneous molecules electrochemically. [ABSTRACT FROM AUTHOR]

Published
2024
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248. Agenda. Call for papers: IV Congreso Internacional Compra Pública Verde y Cambio Climático. Universidad de Alcalá de Henares, 2 y 3 de octubre de 2024.

Author

Mercadal Cuesta, David

Abstract

The text announces the upcoming IV International Congress on Green Public Procurement and Climate Change, which will take place on October 2nd and 3rd, 2024 at the University of Alcalá in Spain. The conference is organized by the Green Public Procurement research group at the university, in collaboration with the Public Procurement Observatory and the International Center for Environmental Law Studies. The call for papers is open until May 27th, and submissions can cover various topics related to green public procurement and climate change, such as sustainable food, energy efficiency, and sustainable mobility. The abstracts should be sent via email and should include the title, authorship, objectives, and results/conclusions. The evaluation results will be communicated by June 17th, and selected papers may be published in the journal Actualidad Jurídica Ambiental or the Public Procurement Observatory. [Extracted from the article]

Published
2024

249. Reproducibility in Journal of Structural Engineering Papers.

Author

van de Lindt, John W. and Narasimhan, Sriram

Subjects
*STRUCTURAL engineers, *STRUCTURAL engineering, *DATA libraries, *DATA warehousing, *REPRODUCIBLE research
Abstract

The article discusses the importance of reproducibility in academic research, particularly in the field of structural engineering. It acknowledges the challenges in achieving reproducibility, such as data storage and computing requirements, as well as proprietary issues. The authors argue for the development of a reproducibility policy in the Journal of Structural Engineering and the Journal of Bridge Engineering, taking into account the nature and culture of research in these subdisciplines. They propose a classification system that emphasizes the availability of data and metadata, and encourage authors to go beyond data availability by making models and other materials accessible. To incentivize research and data availability, the journals will provide a visible recognition badge for papers with open data/models/codes and may consider special recognition for these papers. The authors also outline the review process for data-verified papers, which involves three associate editors verifying the availability and representativeness of the data. [Extracted from the article]

Published
2024
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