renewable and superior thermal-resistant cellulose-based

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Zurck zum Zitat Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator ACS Appl Mater Interfaces 5:128–134 doi: 10 1021/ am302290n CrossRef Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator

Development of separators for lithium ion battery applied

Lithium ion battery received much attention as the power supply for electric/hybrid vehicles The outstanding demands on safety and energy density set the barrier to overcome In this paper the developments of separators in aspects of new emerging materials and technologies were discussed

Renewable and Superior Thermal

A renewable and superior thermal-resistant cellulose-based composite nonwoven was explored as lithium-ion battery separator via an electrospinning technique followed by a dip-coating process It was demonstrated that such nanofibrous composite nonwoven possessed good electrolyte wettability excellent heat tolerance and high ionic conductivity

Renewable and Superior Thermal

A renewable and superior thermal-resistant cellulose-based composite nonwoven was explored as lithium-ion battery separator via an electrospinning technique followed by a dip-coating process It was demonstrated that such nanofibrous composite nonwoven possessed good electrolyte wettability excellent heat tolerance and high ionic conductivity

KONG Qingshan

Dr KONG Qingshan is a Professor of Qingdao Institute of Bioenergy and Bioprocess Technology(BIBEBT) Chinese Academy of Sciences (CAS) He received his PhD in Materials Science and Technology from Tsinghua University (2008) with major in Materials Science and Technology

High Performance Fibers

Schematic diagram showing production of cellulose based carbon fibres The repeat unit of cellulose in rayon contains hydrogen and oxygen which can result in the elimination of five molecules of water resulting in a theoretical weight loss of 55 5% The actual weight loss is about 70-90% This excessive weight loss is attributed to chain-splitting reactions involving CO2 CO alcohols ketones

Welcome Welcome to the 21st International Conference

3 Welcome Welcome to the 21st International Conference on Composite Materials (ICCM21) in Xi an China The ICCM having started in 1975 is the largest conference series dedicated to composite materials ICCM21 has adopted the motto of Advanced Composites: Innovation and Development bringing together researchers scientists and practitioners worldwide to explore the role of innovation

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Zurck zum Zitat Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator ACS Appl Mater Interfaces 5:128–134 doi: 10 1021/ am302290n CrossRef Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator

Biopolymers in China: government programs and major players

Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator ACS Appl Mater Interfaces 2013 Jan 5(1):128-34 Nano fibrous cellulose composite prepared by electrospinning followed by a dip-coating process

Enhancement of electrochemical performance of lithium

Single-ion conducting polymers have been widely reported in the literature as solid polymer electrolytes but their low ionic conductivity has limited industrial applications at ambient temperature Here we employed a perfluoroalkyl

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Journal of Membrane Science via MedWorm

Superior nanofiltration membranes with gradient cross-linked selective layer fabricated via controlled hydrolysis Publication date: Available online 20 March 2020Source: Journal of Membrane ScienceAuthor(s): Mingyuan Cao Linghao Zhao Dongwan Xu Richard Ciora Paul K T Liu Vasilios I Manousiouthakis Theodore T Tsotsis (Source: Journal of Membrane Science)

Journal of Membrane Science via MedWorm

Publication date: 1 March 2020Source: Journal of Membrane Science Volume 601Author(s): N D Pismenskaya O A Rybalkina A E Kozmai K A Tsygurina E D Melnikova V V NikonenkoAbstractGeneration of H+ and OH− ions at anion-exchange membranes is a phenomenon which substantially reduces the performance of a number of electromembrane

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Highly safe and flame

Thus its a compelling challenge to exploit advanced separators for lithium batteries with high mechanical strength superior thermal resistance and improved interfacial stability Herein this paper simply overviewed the development of separators in recent years and mainly reviewed the progress of our group in highly safe and flame-retardant separators for power lithium batteries

Journal of Membrane Science via MedWorm

Superior nanofiltration membranes with gradient cross-linked selective layer fabricated via controlled hydrolysis Publication date: Available online 20 March 2020Source: Journal of Membrane ScienceAuthor(s): Mingyuan Cao Linghao Zhao Dongwan Xu Richard Ciora Paul K T Liu Vasilios I Manousiouthakis Theodore T Tsotsis (Source: Journal of Membrane Science)

Renewable and Superior Thermal-Resistant Cellulose-Based Composite Nonwoven as Lithium-Ion Battery Separator: Cui GL: ACS APPLIED MATERIALS INTERFACES: 2013: 5: 1: 128-134: Enzymatic and physiological characterization of fatty acid activation in Synechocystis sp PCC6803: Lu XF: JOURNAL OF BASIC MICROBIOLOGY: 2013: 53: 10: 848-855

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Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator ACS Appl Mater Inter 2013 5: 128–134 53 Xu Q Kong QS Liu ZH Wang XJ Liu RZ Zhang JJ Yue LP Duan YL Cui GL Cellulose/polysulfonamide composite membrane as a high performance lithium-ion battery separator ACS Sustainable Chem Eng 2014 2: 194–199 54 Zhang

Journal of Membrane Science via MedWorm

Publication date: 1 March 2020Source: Journal of Membrane Science Volume 601Author(s): N D Pismenskaya O A Rybalkina A E Kozmai K A Tsygurina E D Melnikova V V NikonenkoAbstractGeneration of H+ and OH− ions at anion-exchange membranes is a phenomenon which substantially reduces the performance of a number of electromembrane

Publications Authored by Wang Xuejiang

Sci Total Environ 2020 Jul 28 724:138294 Epub 2020 Mar 28 State Key Laboratory of Pollution Control and Resource Reuse College of Environmental Science and Engineering Tongji University Shanghai 200092 PR China Shanghai Institute of Pollution Control and Ecological Security Shanghai 200092 PR

Journal of Membrane Science via MedWorm

Publication date: 1 March 2020Source: Journal of Membrane Science Volume 601Author(s): N D Pismenskaya O A Rybalkina A E Kozmai K A Tsygurina E D Melnikova V V NikonenkoAbstractGeneration of H+ and OH− ions at anion-exchange membranes is a phenomenon which substantially reduces the performance of a number of electromembrane

Renewable and Superior Thermal

Renewable and Superior Thermal-Resistant Cellulose-Based Composite Nonwoven as Lithium-Ion Battery Separator Jianjun Zhang ‡ † Zhihong Liu ‡ † Qingshan Kong ‡ Chuanjian Zhang ‡ Shuping Pang ‡ Liping Yue Xuejiang Wang ‡ Jianhua Yao ‡ and Guanglei Cui* ‡ ‡Qingdao Institute of Bioenergy and Bioprocess Technology Chinese Academy of Sciences Qingdao 266101 P R China

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Zurck zum Zitat Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator ACS Appl Mater Interfaces 5:128–134 doi: 10 1021/ am302290n CrossRef Zhang J et al (2012) Renewable and superior thermal-resistant cellulose-based composite nonwoven as lithium-ion battery separator

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We develop and patent technologies allowing the fabrication of eco superior products from natural fibres While one third of the global non-renewable resources are used for the processing and transportation of manufactured goods resources are becoming scarce and the need for renewable bio-based materials strongly increasing

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Single-ion conducting polymers have been widely reported in the literature as solid polymer electrolytes but their low ionic conductivity has limited industrial applications at ambient temperature Here we employed a perfluoroalkyl

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Enhancement of electrochemical performance of lithium

Single-ion conducting polymers have been widely reported in the literature as solid polymer electrolytes but their low ionic conductivity has limited industrial applications at ambient temperature Here we employed a perfluoroalkyl

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