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<title cf:type="text"><![CDATA[ -->木质纤维基凝胶材料在电学与传感领域的应用]]></title>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Research Progress of Cellulose-based Gel Polymer Electrolytes for Lithium Batteries]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202303001&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Electrolyte， as one of the main components of lithium batteries， plays an important role in the transport of lithium ions during the charging and discharging process. However， the frequent safety accidents caused by problems such as traditional liquid electrolyte leakage and lithium dendrite growth during charging and discharging seriously limit the wide applications of lithium batteries. Compared with liquid electrolytes， gel polymer electrolytes （GPE） integrate the separate with the liquid electrolyte， and overall improved safety performance and electrochemical performance. Because of its excellent thermal stability， good mechanical properties and strong electrolyte affinity， cellulose has received extensive attention in the field of GPE research in recent years. In this paper， the current research progress of micro-cellulose， nano-cellulose， regenerated cellulose and cellulose derivatives in the field of GPE is reviewed， and the effects of different cellulose matrices or functional fillers on the properties of GPE composite are analyzed， and finally the challenges of cellulose-based GPE in high-performance lithium batteries are proposed， and their research prospects are prospected.]]></description>
<pubDate>2023/9/20 0:00:00</pubDate>
<category><![CDATA[木质纤维基凝胶材料在电学与传感领域的应用]]></category>
<author><![CDATA[ZHANG Sufeng,DENG Tingting,LI Lei,ZHU Xinyue,LIU Yali,LI Nan]]></author>
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<atom:name>ZHANG Sufeng,DENG Tingting,LI Lei,ZHU Xinyue,LIU Yali,LI Nan</atom:name>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Progress in the Preparation and Application of Nanocellulose/MXene Flexible Electronic Devices]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202303002&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Nanocellulose/MXene composites combine the excellent electrical conductivity， abundant surface functional groups and ultra-high specific surface area of MXene with the excellent mechanical properties and mechanical stability of nanocellulose-based materials， which has become a hot material for applications in flexible sensor， electromagnetic shielding， energy storage， and other fields. The preparation of nanocellulose/MXene composites was concluded in this paper， focusing on their performances as flexible electronic devices in pressure sensors， electromagnetic shielding materials， supercapacitors and the latest research progress. The challenges faced by nanocellulose/MXene composites were summarized and their future development trends were prospected.]]></description>
<pubDate>2023/9/20 0:00:00</pubDate>
<category><![CDATA[木质纤维基凝胶材料在电学与传感领域的应用]]></category>
<author><![CDATA[YAO Liming,ZHANG Yanrou,LIU Zhenhua,YANG Miaoxiu,WANG Xin,CHEN Haonan,QIAN Liwei]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>YAO Liming,ZHANG Yanrou,LIU Zhenhua,YANG Miaoxiu,WANG Xin,CHEN Haonan,QIAN Liwei</atom:name>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[CNCs/PVA/RGO/PPy Composite Aerogel for Electrode Materials of Supercapacitors]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202303003&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[In this study， polyvinyl alcohol （PVA） and cellulose nanocrystals （CNCs） were blended to form a network structure， and graphene oxide （GO） and polypyrrole （PPy） were introduced. Py was uniformly deposited on the surface of the composites by <i>in</i>-<i>situ</i> polymerization and composite aerogels were prepared by freeze-thaw cycle and freeze drying method. The Go in the composite was reduced to reduced graphene oxide （RGO） with reducing agent， and the CNCs/PVA/RGO/PPy composite aerogel with good electrical conductivity was prepared. Through the characterization and analysis of structure and electrochemical performance， the results showed that the composite aerogel has good porous network structure and excellent electrochemical performance （the specific capacity was about 352 F/g when the current density was 0.25 mA/cm<sup>2</sup>）. The composite has a good application prospect in the field of electrode materials.]]></description>
<pubDate>2023/9/20 0:00:00</pubDate>
<category><![CDATA[木质纤维基凝胶材料在电学与传感领域的应用]]></category>
<author><![CDATA[LUAN Yunhao,CAO Hui,JIA Lingyun,LIU Wenli,LIU Pengtao]]></author>
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<atom:name>LUAN Yunhao,CAO Hui,JIA Lingyun,LIU Wenli,LIU Pengtao</atom:name>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Research Progress of Cellulose-based Hydrogels as Electrolytes for Flexible Supercapacitors]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202303004&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Traditional supercapacitors are mostly assembled with liquid electrolytes， but when they are damaged by too much external force， the toxic and volatile liquid electrolyte will leak， which will lead to safety risks. To meet the challenge， flexible supercapacitors need to be developed to resist the damage of external forces. In recent years， cellulosic materials have become ideal materials for energy storage devices due to their green， economic， and renewable characteristics， and supercapacitors composed of cellulosic hydrogels show good physical and chemical properties （such as high flexibility， excellent mechanical strength， and electrical conductivity）. Therefore， the application of cellulose-based hydrogels in the field of flexible supercapacitors has become a research hotspot. This paper reviews the latest progress and achievements of cellulose-based hydrogel electrolytes， including the properties and characteristics of hydrogel electrolytes prepared by different cellulose and its derivatives. Finally， the future research potential and opportunities of cellulosic materials as new energy materials are discussed.]]></description>
<pubDate>2023/9/20 0:00:00</pubDate>
<category><![CDATA[木质纤维基凝胶材料在电学与传感领域的应用]]></category>
<author><![CDATA[SUN Yuanjun,PANG Zhiqiang,DONG Cuihua,MA Li,WANG Xin]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>SUN Yuanjun,PANG Zhiqiang,DONG Cuihua,MA Li,WANG Xin</atom:name>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Recent Advances on the Preparation of Nanocellulose Composite Conductive Hydrogels and Their Applications in Sensors]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202303005&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Nanocellulose， as a sustainable biodegradable nanomaterial， was added to conductive hydrogels to improve their properties. The applications of nanocellulose in different conductive hydrogels were discussed in this paper. The advantages of nanocellulose-based conductive hydrogel and its applications in flexible sensor were introduced in details. Finally， the challenges and future development directions of nanocellulose-based conductive hydrogels applied in flexible sensors were discussed.]]></description>
<pubDate>2023/9/20 0:00:00</pubDate>
<category><![CDATA[木质纤维基凝胶材料在电学与传感领域的应用]]></category>
<author><![CDATA[DU Hong,CHENG Zhengbai,LIU Yingying,ZHAO Mengxing,CAO Haibing,JIA Wangqiang,XIA Mingfeng,SUN Xianhao,YAO Mengmeng,ZHANG Yaxiong,LIU Hongbin]]></author>
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<atom:name>DU Hong,CHENG Zhengbai,LIU Yingying,ZHAO Mengxing,CAO Haibing,JIA Wangqiang,XIA Mingfeng,SUN Xianhao,YAO Mengmeng,ZHANG Yaxiong,LIU Hongbin</atom:name>
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