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<title cf:type="text"><![CDATA[ -->生物质基碳材料与储能材料]]></title>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Research Progress in Preparation of Lignin-based Hard Carbon Materials and Its Application in Sodium Ion Batteries]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503011&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[In this paper， the structure and characteristics of lignin were introduced， and its advantages as a precursor of hard carbon materials for sodium ion batteries were expounded. The preparation methods of lignin-based hard carbon materials were summarized in detail， including pretreatment methods， carbonization process and subsequent modification strategies. In addition， based on the structure and preparation process of lignin， the optimization methods of the electrochemical properties improvement of carbon materials were discussed， and the application research progress of lignin-based carbon materials in sodium ion batteries was summarized， as well as the challenges faced by this kind of materials in practical application at present. Finally， the prospect of promoting the large-scale application of lignin-based hard carbon materials in the field of sodium ion batteries in the future was put forward.]]></description>
<pubDate>2025/9/23 19:02:10</pubDate>
<category><![CDATA[生物质基碳材料与储能材料]]></category>
<author><![CDATA[ZHANG Dongyang,QIAO Yichao,WANG Hanmin,HOU Qingxi,SI Chuanling]]></author>
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<atom:name>ZHANG Dongyang,QIAO Yichao,WANG Hanmin,HOU Qingxi,SI Chuanling</atom:name>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Review on the Preparation, Formation Mechanism and Application of Biomass-derived Carbon Quantum Dots]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503012&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[As a class of fluorescent carbon-based nanomaterial with dimensions less than 10 nm， carbon quantum dots （CQDs）， with their quantum size effect， tunable surface functionality， and excellent biocompatibility， have demonstrated a potential for applications in the fields of chemical sensing， bioimaging， and photocatalysis. CQDs can be prepared from various carbon sources using different methods. Among them， biomass-derived CQDs （B-CDs） have become the focus of research in the field of nanomaterial due to their green synthesis pathway， renewable raw material advantage， and unique luminescent properties. This review summarized the synthesis strategy， carbon core-surface state synergistic regulation mechanism， functionalization modification technologies （doping/surface modification）， and its innovation for multi-disciplinary applications， aiming to provide theoretical references for the precise design and industrial application of B-CDs.]]></description>
<pubDate>2025/9/23 19:02:11</pubDate>
<category><![CDATA[生物质基碳材料与储能材料]]></category>
<author><![CDATA[WU Xingru,YAO Lan,CHEN Congxin,YANG Haitao]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>WU Xingru,YAO Lan,CHEN Congxin,YANG Haitao</atom:name>
</atom:author>
<guid><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503012&flag=1]]></guid><cfi:id>4</cfi:id><cfi:read>true</cfi:read></item>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Research Progress on Functionalization Modification of Bamboo Fibers for Conductivity and Its Application in Flexible Electronics Field]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503013&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[China has abundant bamboo resources， which have the potential to be widely used in flexible electronics field after being modified for conductivity. However， untreated bamboo has limited functions and application scope. By removing lignin to break the inherent dense network and expose the active sites of bamboo fibers， conditions can be created for conductive functionalization modification. Currently， delignified bamboo fiber conductive functional materials have been applied in various fields such as energy storage devices and flexible wearable equipment， promoting the transformation of bamboo into high-performance and high-value materials. This article first introduced the structural composition of bamboo， deeply discussed the delignification pretreatment methods and the conductive functional modification methods of delignified bamboo fibers， and further comprehensively reviewed the research progress in the field of flexible electronics such as supercapacitors and sensors. Finally， it summarized the current bottlenecks in the preparation and application of delignified bamboo fibers.]]></description>
<pubDate>2025/9/23 19:02:11</pubDate>
<category><![CDATA[生物质基碳材料与储能材料]]></category>
<author><![CDATA[WANG Kai,YANG Yang,YE Jian,LI Yan,CHEN Huanhuan,WU Qiuqi,CHEN Yongmei]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>WANG Kai,YANG Yang,YE Jian,LI Yan,CHEN Huanhuan,WU Qiuqi,CHEN Yongmei</atom:name>
</atom:author>
<guid><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503013&flag=1]]></guid><cfi:id>3</cfi:id><cfi:read>true</cfi:read></item>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Preparation of Nanocellulose Composite Aerogels and Its Application in Electrochemical Energy Storage Field]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503014&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Nanocellulose， distinguished by its high aspect ratio， large specific surface area， exceptional mechanical properties， and thermal stability， has been widely utilized in the construction of electrochemical energy storage materials. Among these， nanocellulose composite aerogels have emerged as a research hotspot in electrochemical energy storage due to their lightweight nature， high porosity， and tunable microstructure. This review began with an overview of the classification and intrinsic properties of nanocellulose， followed by a detailed discussion on the fabrication strategies of nanocellulose composite aerogels. Based on structure-property relationships and energy storage mechanisms， the recent advances in the application of nanocellulose composite aerogels in supercapacitors， lithium-ion batteries， zinc-ion batteries， and sodium-ion batteries were systematically summarized. Finally， future perspectives and practical suggestions were proposed to address existing challenges， including scalable applications in electrochemical energy storage devices， the synergistic regulation of pore structure with electrical conductivity and mechanical robustness， and the characterization of ion/electron transport mechanisms within nanocellulose composite aerogels.]]></description>
<pubDate>2025/9/23 19:02:13</pubDate>
<category><![CDATA[生物质基碳材料与储能材料]]></category>
<author><![CDATA[XU Ting,LI Yan,WANG Xuan,ZHANG Meng,QI Junjie,ZHANG Han,DONG Qiang,WANG Yaxuan,LI Huihu,SI Chuanling]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>XU Ting,LI Yan,WANG Xuan,ZHANG Meng,QI Junjie,ZHANG Han,DONG Qiang,WANG Yaxuan,LI Huihu,SI Chuanling</atom:name>
</atom:author>
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<title xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="text"><![CDATA[Research Progress of Cellulose for Aqueous Secondary Zinc Batteries]]></title>
<link><![CDATA[http://zgzzxb.ijournals.cn/zzxben/ch/reader/view_abstract.aspx?file_no=202503015&flag=1]]></link>
<description xmlns:cf="http://www.microsoft.com/schemas/rss/core/2005" cf:type="html"><![CDATA[Aqueous secondary zinc batteries （AZBs） offer advantages of high safety and low cost， making them promising candidates for large-scale energy storage and electronic devices. However， their large-scale applications are hindered by issues associated with the anode， including dendrite growth and side reactions， etc. Similarly， the cathode suffers from dissolution and structural collapse， leading to unsatisfactory performance. Surface and interfacial modification can significantly enhance the lifespan of AZBs. Cellulose as a kind of environmentally friendly and biodegradable biomass materials， exhibits high mechanical strength， acid and alkali resistance， and wide electrochemical window， which are beneficial for enhancing the stability of electrodes. This paper reviewed the reaction mechanism of AZBs， and systematically summarized the research progress on cellulose-based modifications of anodes， electrolytes， separators， and cathodes. Finally， it offered perspectives on the future applications of cellulose in AZBs.]]></description>
<pubDate>2025/9/23 19:02:13</pubDate>
<category><![CDATA[生物质基碳材料与储能材料]]></category>
<author><![CDATA[ZHENG Jiaxian,LIN Jianhao,LIN Xiangfeng,ZHANG Xinxiang,YUAN Zhanhui]]></author>
<atom:author xmlns:atom="http://www.w3.org/2005/Atom">
<atom:name>ZHENG Jiaxian,LIN Jianhao,LIN Xiangfeng,ZHANG Xinxiang,YUAN Zhanhui</atom:name>
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