Facile synthesis of three-dimensional conducting scaffold with magnesiophilic decorations toward non-dendritic Mg-metal batteries

Authors
KWAK, JIN HWANSunghee, ShinYunseo JeounLee, YongheumYu, Seung hoYoung Soo YunYung-Eun SungSeung-Ho YuLim, Hee Dae
Issue Date
2022-09
Publisher
Elsevier BV
Citation
Journal of Power Sources, v.541
Abstract
Despite the substantial efforts aimed at suppressing metallic dendrite growth in Li-metal batteries, Mg-metal dendrite growth has thus far received relatively little attention, and the formation of Mg dendrites has recently been shown to be a critical limitation for the practical advancement of rechargeable Mg-ion batteries. The development of an appropriate anode to efficiently accommodate Mg deposits is thus key to overcome this limitation. Here, we report the unique design of Ag-decorated Cu foam (ACF) consisting of a porous Cu scaffold decorated with magnesiophilic Ag nanoparticles (NPs) on its surface through a facile one-step synthesis process. For the first time, we demonstrate the strong affinity of Ag atoms to the electrochemically deposited Mg; magnesiophilicity is then adopted to design an efficient anode host for Mg-metal batteries and suppress the Mg dendritic formation. As a result, the ACF exhibits a greatly decreased nucleation overpotential with a longer cycle life compared with those of conventional substrates. In the absence of magnesiophilic Ag nano-seeds, non-uniform and top-oriented Mg depositions are observed; in contrast, the ACF helps contribute to an even deposition of the electrochemically formed Mg over the entire active surface, resulting in improved electrochemical performance.
Keywords
ELECTRICAL ENERGY-STORAGE; CATHODE MATERIALS; DENDRITE GROWTH; MAGNESIUM; CHALLENGES; Cu scaffold; Dendrite; Magnesium; Magnesiophilic seeds; Magnesium metal battery
ISSN
0378-7753
URI
https://pubs.kist.re.kr/handle/201004/76621
DOI
10.1016/j.jpowsour.2022.231724
Appears in Collections:
KIST Article > 2022
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