Title: Ether‐soluble Cu53 Nanoclusters as an Effective Precursor of High‐quality CuI Films for Optoelectronic Applications

Authors: Peng Yuan,  Ruihao Chen,  Xiaomin Zhang,  Fengjiao Chen,  Juanzhu Yan,  Cunfa Sun,  Daohui Ou, Jian Peng,  Shuichao Lin,  Zichao Tang,  Boon K. K. Teo,  Lan-Sun Zheng,  Nanfeng Zheng

Abstract:

An effective strategy is developed to synthesize high‐nuclearity Cu clusters, [Cu53(RCOO)10(C≡CtBu)20Cl2H18]+ (Cu53), which is the largest Cu(I)/Cu(0) cluster reported to date. Cu powder and Ph2SiH2 are employed as the reducing agents in the synthesis. As revealed by single‐crystal diffraction, Cu53 is arranged as a four‐concentric‐shell Cu3@Cu10Cl2@Cu20@Cu20 structure, possessing an atomic arrangement of concentric M12 icosahedral and M20 dodecahedral shells which popularly occurs in Au/Ag nanoclusters. Surprisingly, Cu53 can be dissolved in diethyl ether and spin coated to form uniform nanoclusters film on organo‐lead halide perovskite. The cluster film can subsequently be converted into high‐quality CuI film via in‐situ iodination at room temperature. The as‐fabricated CuI film proves to be an excellent hole‐transport layer for fabricating highly stable CuI‐based perovskite solar cells (PSCs) with 14.3% of efficiency.

Full-Link：https://onlinelibrary.wiley.com/doi/10.1002/anie.201812236