Recent Progress in Biomass‐Derived Electrode Materials for High Volumetric Performance Supercapacitors,Advanced Energy Materials

当前位置： X-MOL 学术 › Adv. Energy Mater. › 论文详情

Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)

Recent Progress in Biomass‐Derived Electrode Materials for High Volumetric Performance Supercapacitors
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2018-05-31 , DOI: 10.1002/aenm.201801007
Huile Jin ₁ , Jun Li ₁ , Yifei Yuan _{2,

3} , Jichang Wang ₄ , Jun Lu ₂ , Shun Wang _{1,

5}

Affiliation

Tremendous efforts have been spent on the development of electrical energy storage (EES) systems with high volumetric performance in the past few years due to the evergrowing demand of miniaturized, portable electronic devices, and electric vehicles. Among all the EES devices, supercapacitors with electrode materials derived from biosources have attracted special attention due to their eco‐friendliness, natural abundance, their intrinsic porous structures as well as their renewable and sustainable features. However, the relatively low packing densities make their specific volumetric capacitance intrinsically low, which has largely limited their further application in the supercapacitors. To address these issues, various promising approaches ranging from structural manufacture to compositional design are applied and significant breakthroughs are witnessed in recent years. In this progress report, key factors influencing the volumetric performance of biomass‐derived electrode materials are systematically discussed with a particular focus spanning from fundamental to operational aspects. This work provides insights into the development of high‐volumetric‐performance biomass‐derived supercapacitors by comprehensively summarizing recent advances in the rational structural design and fabrication. Perspectives regarding the future challenges and promising research directions on the design of next‐generation EES devices are also provided.

中文翻译：

用于高容量高性能超级电容器的生物质电极材料的最新进展

由于小型化，便携式电子设备和电动车辆的不断增长的需求，在过去的几年中，人们已经在开发具有高容积性能的电能存储（EES）系统上进行了巨大的努力。在所有EES装置中，具有源自生物资源的电极材料的超级电容器因其生态友好，自然丰度，固有的多孔结构以及可再生和可持续的特性而备受关注。但是，相对较低的堆积密度使其固有的体积电容本质上较低，这极大地限制了它们在超级电容器中的进一步应用。为了解决这些问题，从结构制造到成分设计的各种有前途的方法得到应用，并且近年来见证了重大突破。在此进展报告中，系统地讨论了影响生物质衍生电极材料的体积性能的关键因素，特别是从基础到操作方面。这项工作通过全面总结合理结构设计和制造方面的最新进展，为高容量生物质衍生超级电容器的发展提供了见识。还提供了有关下一代EES器件设计的未来挑战和有前途的研究方向的观点。系统地讨论了影响生物质电极材料体积性能的关键因素，重点从基础到操作方面。这项工作通过全面总结合理结构设计和制造方面的最新进展，为高容量生物质衍生超级电容器的发展提供了见识。还提供了有关下一代EES器件设计的未来挑战和有前途的研究方向的观点。系统地讨论了影响生物质电极材料体积性能的关键因素，重点从基础到操作方面。这项工作通过全面总结合理结构设计和制造方面的最新进展，为高容量生物质衍生超级电容器的发展提供了见识。还提供了有关下一代EES器件设计的未来挑战和有前途的研究方向的观点。这项工作通过全面总结合理结构设计和制造方面的最新进展，为高容量生物质衍生超级电容器的发展提供了见识。还提供了有关下一代EES器件设计的未来挑战和有前途的研究方向的观点。这项工作通过全面总结合理结构设计和制造方面的最新进展，为高容量生物质衍生超级电容器的发展提供了见识。还提供了有关下一代EES器件设计的未来挑战和有前途的研究方向的观点。

更新日期：2018-05-31

点击分享查看原文

点击收藏

公开下载

阅读更多本刊新发论文本刊介绍/投稿指南