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Lead‐Doped Titanium‐Oxo Clusters as Molecular Models of Perovskite‐Type PbTiO 3 and Electron‐Transport Material in Solar Cells
Author(s) -
Zhou Shuyu,
Li Congping,
Fu Hao,
Cao Jing,
Zhang Jian,
Zhang Lei
Publication year - 2020
Publication title -
chemistry – a european journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.687
H-Index - 242
eISSN - 1521-3765
pISSN - 0947-6539
DOI - 10.1002/chem.202000911
Subject(s) - perovskite (structure) , octahedron , dopant , materials science , cluster (spacecraft) , doping , titanium , chemical physics , crystal structure , crystallography , chemistry , optoelectronics , metallurgy , computer science , programming language
In this work we have successfully prepared two lead‐doped titanium‐oxo clusters with core structures that resemble isolated perovskite PbTiO 3 species. In the obtained highly symmetric Pb 8 Ti 7 ‐oxo cluster, the central TiO 6 octahedra are orthogonally extended to adjacent octahedra through corner‐sharing and the eight dopant lead ions form a cubic arrangement, making it the first molecular model of perovskite PbTiO 3 . Moreover, the clusters readily dissolved in chloroform and showed high solution stability, as confirmed by MALDI‐TOF MS measurements. Based on such solution processability, they can be easily spin‐coated to form homogeneous films, which were employed as electron‐transport materials in perovskite solar cells to give an average power conversion efficiency of around 15 % and improved device stability. This newly developed bottom‐up cluster assembly method provides an efficient approach to the construction of atomically precise models of perovskite metal oxides as well as potential molecular tools to extend their applications.