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The Versatility of Layered Two-Dimensional Heterostructures for Energy Storage: Bridging Scientific Insights and Practical Applicationsopen access

Authors
Bansal, NeetuKumar, NitishPathak, Prakash KumarAhn, HeejoonTang, JingYamauchi, YusukeSalunkhe, Rahul R.
Issue Date
Aug-2025
Publisher
WILEY-V C H VERLAG GMBH
Keywords
2D materials; anodes; energy storage; layered heterostructures; monovalent rechargeable batteries
Citation
ADVANCED MATERIALS, v.37, no.34, pp 1 - 34
Pages
34
Indexed
SCIE
SCOPUS
Journal Title
ADVANCED MATERIALS
Volume
37
Number
34
Start Page
1
End Page
34
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212675
DOI
10.1002/adma.202501490
ISSN
0935-9648
1521-4095
Abstract
Nanoscale manipulation of electronic and ionic charge interactions within electrode materials is the cornerstone for advancing electrochemical energy storage. Compared to bulk materials, 2D confined anodes provide lamellar channels to mobile ions for electrochemical interactions. However, individual 2D layers are often inefficient in delivering desired properties for stable and rapid kinetics in battery operations. To address this, 2D-2D heterostructures (2D HRs) that integrate the properties of two or more layers via van der Waals or covalent bonds can give optimized interfacial features. These structures modulate electronic properties, such as band positions, activation energies, diffusion barriers, and binding energies for intercalating ions, thereby regulating the electrochemical characteristics of batteries to meet practical challenges. In this context, this review includes the latest experimental and theoretical investigations to explore the multifunctional roles of 2D HRs in monovalent ion (Li+, Na+, and K+) batteries (MIBs). First, it elucidates the fundamentals concerning the impacts of HRs in charge storage mechanisms and outlines pathways for synthesizing their novel designs. Then, it summarizes the different configurations of 2D HRs utilized in designing MIBs. Finally, it underscores the current challenges and future perspectives for implementing 2D HRs as advanced anode materials in batteries.
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