Building a seamless water-sieving MOF-based interphase for highly reversible Zn metal anodes

Building a seamless water-sieving MOF-based interphase for highly reversible Zn metal anodes

[Display omitted] •A defect-free MOF interphase was grown on Zn metal surface via a solid–gas reaction to avoid electrolyte infiltration.•The pre-desolvation process prevents Zn corrosion by free water and promotes Zn deposition with preferred orientation.•An average Zn Coulombic efficiency of 99.7%...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 455; p. 140510
Main Authors: Luo, Xuan, Nian, Qingshun, Wang, Zihong, Xiong, Bing-Qing, Chen, Shunqiang, Li, Yecheng, Ren, Xiaodi
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2023
Subjects:
electrode-electrolyte interphase
Metal organic framework
Seamless interphase
Surface protection
Zn metal anodes
Metal organic framework
Surface protection
electrode-electrolyte interphase
Seamless interphase
Zn metal anodes
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Summary:[Display omitted] •A defect-free MOF interphase was grown on Zn metal surface via a solid–gas reaction to avoid electrolyte infiltration.•The pre-desolvation process prevents Zn corrosion by free water and promotes Zn deposition with preferred orientation.•An average Zn Coulombic efficiency of 99.7% was achieved over 3200 cycles. Aqueous zinc batteries are considered a promising candidate for large-scale energy storage because of their high safety and low cost. However, the rampant dendrite growth and deteriorative side reactions hinder the practical application of Zn metal anodes. Here, we propose a strategy to construct a seamless MOF-based interphase on the Zn surface via a vapor–solid reaction. The MOF interphase exhibits defect-free feature with high continuity, thus eliminating the undesired electrolyte diffusion along the intergranular voids of membranes with MOF particles. The pre-desolvation process initiated by the angstrom-sized pores and the homogenized Zn ion flux effectively suppress electrolyte side reactions and promotes uniform Zn deposition with preferred orientation along the (002) plane. A high Zn plating/stripping efficiency of 99.7% on average is achieved with stable cycling for 3200 cycles under the protection of the defect-free interphase.
ISSN:1385-8947
DOI:10.1016/j.cej.2022.140510