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Quaternary quantum dots with gradient valence band for all-inorganic perovskite solar cells.

Journal of colloid and interface science (2019-04-25)
Feng Li, Jiahu Wei, Guoqing Liao, Chenyang Guo, Yan Huang, Qin Zhang, Xiao Jin, Shuiqing Jiang, Qunwei Tang, Qinghua Li
ZUSAMMENFASSUNG

The severe interface charge recombination caused by the large energy difference between perovskite material and carbon electrode significantly limits the further performance improvement of the all-inorganic perovskite solar cells (PSCs). We apply innovatively multilayer of quaternary Ag-In-Ga-S (AIGS) quantum dots (QDs) with cascade-like valence bands as hole-transport materials to assemble all-inorganic PSCs, and the resultant all-inorganic PSCs exhibit a power conversion efficiency (PCE) of 8.46%, which is enhanced by 20.9% in comparison with 7% for the pristine device. The high performance of the PSCs indicates that sequential layers of AIGS QDs with cascade-like energy levels can facilitate the charge separation, reduce the barrier the holes crossing and suppress the charge recombination. Stack of QDs with cascade-like energy levels provide solution-processed PSCs with a new method to enhance device performance.