Authors
Yong Xia, Sisi Liu, Kang Wang, Xiaokun Yang, Linyuan Lian, Zhiming Zhang, Jungang He, Guijie Liang, Song Wang, Manlin Tan, Haisheng Song, Daoli Zhang, Jianbo Gao, Jiang Tang, Matthew C Beard, Jianbing Zhang
Publication date
2020/1
Journal
Advanced Functional Materials
Volume
30
Issue
4
Pages
1907379
Description
Infrared solar cells that utilize low‐bandgap colloidal quantum dots (QDs) are promising devices to enhance the utilization of solar energy by expanding the harvested photons of common photovoltaics into the infrared region. However, the present synthesis of PbS QDs cannot produce highly efficient infrared solar cells. Here, a general synthesis is developed for low‐bandgap PbS QDs (0.65–1 eV) via cation exchange from ZnS nanorods (NRs). First, ZnS NRs are converted to superlattices with segregated PbS domains within each rod. Then, sulfur precursors are released via the dissolution of the ZnS NRs during the cation exchange, which promotes size focusing of PbS QDs. PbS QDs synthesized through this new method have the advantages of high monodispersity, ease‐of‐size control, in situ passivation of chloride, high stability, and a “clean” surface. Infrared solar cells based on these PbS QDs with different …
Scholar articles
Y Xia, S Liu, K Wang, X Yang, L Lian, Z Zhang, J He… - Advanced Functional Materials, 2020