Slowing Hot-Electron Relaxation in Mix-Phase Nanowires for Hot-Carrier Photovoltaics
Date
2021
Authors
Wang, Hailu
Fang, Wang
Xu, Tengfei
Xia, Hui
Xie, Runzhang
Zhou, Xiaohao
Ge, Xun
Liu, Weiwei
Zhu, Yicheng
Sun, Liaoxin
Journal Title
Journal ISSN
Volume Title
Publisher
American Chemical Society
Abstract
Hot carrier harvest could save 30% energy loss in solar cells. So far, however, it is still unreachable as the photoexcited hot carriers are short-lived, ∼1 ps, determined by a rapid relaxation process, thus invalidating any reprocessing efforts. Here, we propose and demonstrate a feasible route to reserve hot electrons for efficient collection. It is accomplished by an intentional mix of cubic zinc-blend and hexagonal wurtzite phases in III-V semiconductor nanowires. Additional energy levels are then generated above the conduction band minimum, capturing and storing hot electrons before they cool down to the band edges. We also show the superiority of core/shell nanowire (radial heterostructure) in extracting hot electrons. The strategy disclosed here may offer a unique opportunity to modulate hot carriers for efficient solar energy harvest.
Description
Keywords
mix-phase nanowire, hot electrons, InAs, radial heterostructure, photovoltaics
Citation
Collections
Source
Nano Letters
Type
Journal article
Book Title
Entity type
Access Statement
License Rights
Restricted until
2099-12-31
Downloads
File
Description