Issue 43, 2023

Utilization of 2D materials in aqueous zinc ion batteries for safe energy storage devices

Abstract

Aqueous rechargeable battery has been an intense topic of research recently due to the significant safety issues of conventional Li-ion batteries (LIBs). Amongst the various candidates of aqueous batteries, aqueous zinc ion batteries (AZIBs) hold great promise as a next generation safe energy storage device due to its low cost, abundance in nature, low toxicity, environmental friendliness, low redox potential, and high theoretical capacity. Yet, the promise has not been realized due to their limitations, such as lower capacity compared to traditional LIB, dendrite growth, detrimental degradation of electrode materials structure as ions intercalate/de-intercalate, and gas evolution/corrosion at the electrodes, which remains a significant challenge. To address the challenges, various 2D materials with different physiochemical characteristics have been utilized. This review explores fundamental physiochemical characteristics of widely used 2D materials in AZIBs, including graphene, MoS2, MXenes, 2D metal organic framework, 2D covalent organic framework, and 2D transition metal oxides, and how their characteristics have been utilized or modified to address the challenges in AZIBs. The review also provides insights and perspectives on how 2D materials can help to realize the full potential of AZIBs for next-generation safe and reliable energy storage devices.

Graphical abstract: Utilization of 2D materials in aqueous zinc ion batteries for safe energy storage devices

Article information

Article type
Review Article
Submitted
17 Jul 2023
Accepted
07 Oct 2023
First published
09 Oct 2023

Nanoscale, 2023,15, 17270-17312

Utilization of 2D materials in aqueous zinc ion batteries for safe energy storage devices

J. S. Kim, S. Heo, S. Y. Lee, J. M. Lim, S. Choi, S. Kim, V. J. Mane, C. Kim, H. Park, Y. T. Noh, S. Choi, T. van der Laan, K. (. Ostrikov, S. Park, S. G. Doo and D. Han Seo, Nanoscale, 2023, 15, 17270 DOI: 10.1039/D3NR03468B

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