首页|Recent progress and future research directions for electrochromic zinc-ion batteries

Recent progress and future research directions for electrochromic zinc-ion batteries

扫码查看
原文链接
  • NETL
  • NSTL
  • 万方数据
In recent times,future energy storage systems demand a multitude of functionalities beyond their tradi-tional energy storage capabilities.In line with this technological shift,there is active research and devel-opment of electrochromic-energy storage systems designed to visualize electrochemical charging and discharging processes.The conventional electrochromic-energy storage devices primarily integrated supercapacitors,known for their high power density,to enable rapid color contrast.However,the low energy density of supercapacitors restricts overall energy storage capacity,acting as a significant barrier to expanding the application range of such systems.In this review,we introduce electrochromic zinc(Zn)-ion battery systems,which effectively overcome the limitation of low energy density,and provide illustrative examples of their applicability across diverse fields.Although many recent research works are present for electrochromic Zn-ion batteries,little review has so far taken place.Our objective is to dis-cuss on the current progress and future directions for electrochromic Zn-ion batteries,which are appli-cable for wearable electronics applications and energy storage systems.This review provides an initial milestone for future researchers in electrochromic energy storage and zinc-ion batteries,which will lead to a stream of future works related to them.

Electrochromic Zn-ion batteryFlexibleTransition metal oxideConductive polymer

Tae Gwang Yun、Byungil Hwang、Jun Young Cheong

展开 >

Department of Molecular Science and Technology,Ajou University,Suwon 16499,Republic of Korea

School of Integrative Engineering,Chung-Ang University,Seoul 06974,Republic of Korea

Bavarian Center for Battery Technology(BayBatt)and Department of Chemistry,University of Bayreuth,95447 Bayreuth,Germany

Bavarian Center for Battery Technology(BayBatt),Bayerisch-Tschechische Hochschula-gentur(BTHA)Bavarian Center for Battery Technology(BayBatt),Bayerisch-Tschechische Hochschula-gentur(BTHA)Bavarian Center for Battery Technology(BayBatt),Bayerisch-Tschechische Hochschula-gentur(BTHA)Bavarian Center for Battery Technology(BayBatt),Bayerisch-Tschechische Hochschula-gentur(BTHA)University of Bayreuth-Deakin University Joint Ph.D.Program,Bayerische Forschungal-lianz(BayFOR)BK21 program from National Research Foundation of KoreaErasmus+program from the European UnionMinistry of Education,Science and Technol-ogy as part of the Higher Education for Economic Transformation(HEET)Project(World BanVerband der Chemischen Industrie(Fonds der Chemischen Industrie)Kangwon National University and LINC 3.0 Research Center德意志研究联合会项目

BTHA-AP-2022-45BTHA-AP-2023-5BTHA-AP-2023-12BTHA-AP-2023-38BayIntAn_UBT_2023_84661740533115776

2024

10.1016/j.jechem.2023.10.039

能源化学
中国科学院大连化学物理研究所 中国科学院成都有机化学研究所

能源化学

CSTPCDEI
影响因子:0.654
ISSN:2095-4956
年,卷(期):2024.90(3)
  • 109