Templated growth of oriented layered hybrid perovskites on 3D-like perovskites

Templated growth of oriented layered hybrid perovskites on 3D-like perovskites

The manipulation of crystal orientation from the thermodynamic equilibrium states is desired in layered hybrid perovskite films to direct charge transport and enhance the perovskite devices performance. Here we report a templated growth mechanism of layered perovskites from 3D-like perovskites which...

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Published in:Nature communications Vol. 11; no. 1; p. 582
Main Authors: Wang, Jifei, Luo, Shiqiang, Lin, Yun, Chen, Yifu, Deng, Yehao, Li, Zhimin, Meng, Ke, Chen, Gang, Huang, Tiantian, Xiao, Si, Huang, Han, Zhou, Conghua, Ding, Liming, He, Jun, Huang, Jinsong, Yuan, Yongbo
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 29-01-2020
Nature Publishing Group
Nature Portfolio
Subjects:
140/146
147/135
147/136
639/4077/909/4101/4096/946
639/766/119/544
Ammonium
Charge transport
Crystal structure
Crystals
Drying
Humanities and Social Sciences
Liquid surfaces
multidisciplinary
Nucleation
Orientation
Perovskites
Photovoltaic cells
Salts
Science
Science (multidisciplinary)
Solar cells
Spin coating
Thermodynamic equilibrium
Transport phenomena
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Summary:The manipulation of crystal orientation from the thermodynamic equilibrium states is desired in layered hybrid perovskite films to direct charge transport and enhance the perovskite devices performance. Here we report a templated growth mechanism of layered perovskites from 3D-like perovskites which can be a general design rule to align layered perovskites along the out-of-plane direction in films made by both spin-coating and scalable blading process. The method involves suppressing the nucleation of both layered and 3D perovskites inside the perovskite solution using additional ammonium halide salts, which forces the film formation starts from solution surface. The fast drying of solvent at liquid surface leaves 3D-like perovskites which surprisingly templates the growth of layered perovskites, enabled by the periodic corner-sharing octahedra networks on the surface of 3D-like perovskites. This discovery provides deep insights into the nucleation behavior of octahedra-array-based perovskite materials, representing a general strategy to manipulate the orientation of layered perovskites. The orientation of layered perovskites plays a crucial role in their charge transport behavior and hence, the efficiency of related solar cells. Here, the authors find that preformed 3D-like perovskites can efficiently template the growth of layered perovskites and determine their orientation.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-019-13856-1