Exploring the Interfacial Chemistry between Zinc Anodes and Aqueous Electrolytes via an In Situ Visualized Characterization System
Xunzhu Zhou, Yong Lu, Qiu Zhang, Licheng Miao, Kai Zhang, Zhenhua Yan, Fujun Li, Jun Chen
Journal:ACS Applied Materials & Interfaces
IF:8.76
DOI:10.1021/acsami.0c17023
PMID:33237733
Published:2020-11-25
research field:表面科学电化学纳米技术材料科学
Abstract
Direct monitoring of dendrite growth, hydrogen evolution, and surface passivation can enrich the chemical and morphological understanding of the unstable Zn/electrolyte interface and provide guidelines for rational design of Zn anodes; however, the on-line observation with high precision is hitherto lacking. Herein, we present a real-time comprehensive characterization system, including in situ atomic force microscopy, optical microscopy, and electrochemical quartz crystal microbalance (referred to as the “3M” system), to provide multiscale views on the semisphere nuclei and growth of bump-like dendrites and the potential-dependent chemical and morphological structures of passivated products in a mild acidic electrolyte. It is revealed that the poor interfacial properties can be attributed to the sparse nucleation sites and direct contact of Zn with the electrolyte. The 3M system further visualizes and confirms that the additive polyethylene glycol acts as a Zn2+ distribution promoter and physical barrier and merits stable electrochemical performance.
本文使用的Yeasen产品


