Recent Advances in Stretchable Supercapacitors Enabled by Low‐Dimensional Nanomaterials,Small

当前位置： X-MOL 学术 › Small › 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 Advances in Stretchable Supercapacitors Enabled by Low‐Dimensional Nanomaterials
Small ( IF 13.0 ) Pub Date : 2018-11-19 , DOI: 10.1002/smll.201803976
Changyong Cao _{1,

2,

3} , Yihang Chu _{1,

3} , Yihao Zhou ₄ , Chi Zhang ₅ , Shaoxing Qu ₆

Affiliation

Supercapacitors (SCs) have shown great potential for mobile energy storage technology owing to their long‐term durability, electrochemical stability, structural simplicity, as well as exceptional power density without much compromise in the energy density and cycle life parameters. As a result, stretchable SC devices have been incorporated in a variety of emerging electronics applications ranging from wearable electronic textiles to microrobots to integrated energy systems. In this review, the recent progress and achievements in the field of stretchable SCs enabled by low‐dimensional nanomaterials such as polypyrrole, carbon nanotubes, and graphene are presented. First, the three major categories of stretchable supercapacitors are discussed: double‐layer supercapacitors, pseudo‐supercapacitors, and hybrid supercapacitors. Then, the representative progress in developing stretchable electrodes with low‐dimensional (0D, 1D, and 2D) nanomaterials is described. Next, the design strategies enabling the stretchability of the devices, including the wavy‐shape design, wire‐shape design, textile‐shape design, kirigami‐shape design, origami‐shape design, and serpentine bridge‐island design are emphasized, with the aim of improving the electrochemical performance under the complex stretchability conditions that may be encountered in practical applications. Finally, the newest developments, major challenges, and outlook in the field of stretchable SC development and manufacturing are discussed.

中文翻译：

低维纳米材料在可拉伸超级电容器中的最新进展

超级电容器（SC）的长期耐用性，电化学稳定性，结构简单性以及出色的功率密度而又不影响能量密度和循环寿命参数，因此在移动储能技术上显示出了巨大的潜力。结果，可伸缩SC设备已被集成到各种新兴的电子应用中，从可穿戴电子纺织品到微型机器人再到集成能源系统。在这篇综述中，介绍了由低维纳米材料（如聚吡咯，碳纳米管和石墨烯）实现的可拉伸SC领域的最新进展和成就。首先，讨论了可拉伸超级电容器的三个主要类别：双层超级电容器，伪超级电容器和混合超级电容器。然后，描述了开发具有低维（0D，1D和2D）纳米材料的可拉伸电极的典型进展。接下来，重点介绍了使设备具有可伸缩性的设计策略，包括波浪形设计，金属丝形设计，纺织品形状设计，kirigami形状设计，origami形状设计和蛇形桥岛设计。目的是在实际应用中可能遇到的复杂拉伸条件下改善电化学性能。最后，讨论了可伸缩SC开发和制造领域的最新发展，主要挑战和前景。重点介绍了波浪形设计，金属丝形设计，纺织品形状设计，折纸形状设计，折纸形状设计和蛇形桥岛设计，目的是在复杂的拉伸条件下改善电化学性能。在实际应用中可能会遇到。最后，讨论了可伸缩SC开发和制造领域的最新发展，主要挑战和前景。重点介绍了波浪形设计，金属丝形设计，纺织品形状设计，折纸形状设计，折纸形状设计和蛇形桥岛设计，目的是在复杂的拉伸条件下改善电化学性能。在实际应用中可能会遇到。最后，讨论了可伸缩SC开发和制造领域的最新发展，主要挑战和前景。

更新日期：2018-11-19

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