Research Progress in Lattice-Matched Epitaxy of Perovskite MaterialsClick to copy article linkArticle link copied!
- Junxiang WangJunxiang WangLeicester International Institute, Dalian University of Technology, Panjin Campus, Panjin 124221, P. R. ChinaMore by Junxiang Wang
- Xingyi LiXingyi LiLeicester International Institute, Dalian University of Technology, Panjin Campus, Panjin 124221, P. R. ChinaMore by Xingyi Li
- Jinhui ZhongJinhui ZhongLeicester International Institute, Dalian University of Technology, Panjin Campus, Panjin 124221, P. R. ChinaMore by Jinhui Zhong
- Tingli MaTingli MaGraduate School of Life Science and Systems Engineering, Kyushu Institute of Technology, Kitakyushu, Fukuoka808-0196, JapanMore by Tingli Ma
- Ke Zeng*Ke Zeng*Email: [email protected]State Key Laboratory of Fine Chemicals, School of Chemical Engineering, Ocean and Life Sciences, Dalian University of Technology, Panjin Campus, Panjin 124221, P. R. ChinaYantan District Bureau of Science, Technology, and Economic Informatization, Zigong 643000, P. R. ChinaMore by Ke Zeng
- Liguo Gao*Liguo Gao*Email: [email protected]State Key Laboratory of Fine Chemicals, School of Chemical Engineering, Ocean and Life Sciences, Dalian University of Technology, Panjin Campus, Panjin 124221, P. R. ChinaMore by Liguo Gao
Abstract
Epitaxial growth technology has drawn widespread attention in the field of perovskites because of its notable success in producing high-quality crystals with preferred orientations and superior photoelectric properties, which enable the material combinations with a coherent interfacial lattice as well as complementary functionalities. Besides, the minimized structural defects benefit from the lattice coherence, and the adjustable residual strain level could profoundly impact the energy conversion performance of perovskite epitaxial structures and their assembled devices. In this perspective, we summarize the lattice-matched epitaxy of perovskite solids categorized by the combined materials and demonstrate their lattice-matched schemes as well as the performance in various devices. Finally, we outline future directions for perovskite epitaxy, focusing on precise interfacial structure characterization and scaling up fabrications. These advancements have the potential to further enhance the performance and applications of perovskite-based devices.
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