Advanced Energy Materials
Advanced Energy Materials
3 years ago

Opening Two-Dimensional Materials for Energy Conversion and Storage: A Concept

Opening Two-Dimensional Materials for Energy Conversion and Storage: A Concept
Qin Zhang, Yinghui Xue, Hui Cao, Lei Fu, Quanhong Yang, Wenjie Wang
The development of two-dimensional (2D) materials is experiencing a renaissance since the adventure of graphene. 2D materials typically exhibit strong in-plane covalent bonding and weak out-of-plane van der Waals interactions through the interlayer gap. Opening 2D materials is an effective way to alter the physical and chemical properties, such as band gap, conductivity, optical property, thermoelectric property, photovoltaic property and superconductivity. A larger interlayer distance means more accessible active sites for catalysis, an ion-accessible surface in the interlayer space, which may greatly enhance the performance of 2D materials for energy conversion and storage. Moreover, opening 2D materials by intercalation can change the band filling state and the Fermi level. This review mainly focuses on the opening of 2D materials and their subsequent applications in energy conversion and storage fields, expecting to promote the development of such a new class of materials, namely expanded 2D materials. The exciting progresses of these expanded materials made in both energy conversion and storage devices including solar cells, thermoelectric devices, electrocatalyst, supercapacitors and rechargeable batteries, is presented and discussed in depth. Furthermore, prospects and further developments in these exciting fields of the expanded 2D materials are also commented. Recent advance in opening 2D materials for energy conversion and storage is comprehensively reviewed. A larger interlayer distance means more exposed active sites for catalysis, an ion-accessible surface in the interlayer space. The methods of opening 2D materials and their energy conversion and storage applications are discussed, expecting to promote the development of such expanded 2D materials.

Publisher URL: http://onlinelibrary.wiley.com/resolve/doi

DOI: 10.1002/aenm.201602684

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