Resolving spatial and energetic distributions of trap states in metal halide perovskite solar cells
Applied Physical Sciences (United States) · University of Nebraska–Lincoln · +1 more institution
Abstract
Mapping perovskite trap states The high efficiency of hybrid inorganic-organic perovskite solar cells is mainly limited by defects that trap the charge carriers and lead to unproductive recombination. Ni et al. used drive-level capacitance profiling to map the spatial and energetic distribution of trap states in both polycrystalline and single-crystal perovskite solar cells. The interface trap densities were up to five orders of magnitude higher than the bulk trap densities. Deep traps were mainly located at the interface of perovskites and hole-transport layers, where processing created a high density of nanocrystals. These results should aid efforts aimed at avoiding trap-state formation or passivating such…
Citation impact
- FWCI
- 67.94
- Percentile
- 100%
- References
- 39
Authors
12- ZNZhenyi NiCorresponding
Applied Physical Sciences (United States)
- CBChunxiong BaoCorresponding
University of Nebraska–Lincoln
- YLYe Liu
University of Nebraska–Lincoln, Applied Physical Sciences (United States)
- QJQi Jiang
Applied Physical Sciences (United States)
- WWWu-Qiang Wu
Applied Physical Sciences (United States)
Topics & keywords
- Halide
- Crystallite
- Perovskite (structure)
- Trap (plumbing)
- Metal
- Limiting
- Crystal (programming language)
- Trapping