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Rational design of hierarchically structured dual-encapsulated CoMoO4 nanosheets via in situ plasma tuning for efficient Li+ storage
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Type
Article
Citation
Ouyang, B., Wang, Y., Wang, X., Zhang, Z., Liu, F., Fang, Z., Kan, E., & Rawat, R. S. (2022). Rational design of hierarchically structured dual-encapsulated CoMoO4 nanosheets via in situ plasma tuning for efficient Li+ storage. MRS Bulletin, 47, 656–664. https://doi.org/10.1557/s43577-022-00312-7
Author
Abstract
Engineering electrodes with desirable nanostructures are regarded as an urgent challenge to achieve enhanced electrical conductivity, stable structural integrity, and advanced performance for Li+ storage. Various approaches with processing complexity and multiple reactions have suffered serious limitation in industrialization. Here, we develop a facile carbon plasma (C-plasma) strategy combined with controlled reaction temperature to achieve in situ hierarchical metallic nanoparticles and graphene-encapsulated CoMoO4 nanosheets (hCCO). The nano-frameworks of Co3Mo and graphene shell are simultaneously modulated via simply controlling reaction temperature. The incorporation of nanoalloy component effectively enhances the conductivities of nanosheet, and uniformly coated graphene releases the structural stress caused by conversion reaction of metal oxides, maximizing the capacity utilization. The synergetic combination of these advantages enables the synthesized hCCO to deliver excellent electrochemical performances. Our C-plasma exhibits a great potential in tuning nano-architectures with high-performance Li+ storage behavior.
Date Issued
2022
Publisher
Springer
Journal
MRS Bulletin
Project
RS 6/18 RSR
Grant ID
2021M701718
51522206
11774173
11574151
51790492
30915011203
30918011334
30919011248
CRP Code F13019
Funding Agency
Nanjing University of Science and Technology
Fundamental Research Funds for the Central Universities, China
IAEA, Vienna, Austria
National Institute of Education, Singapore