Limiting phosphonic acid interlayer–perovskite reactivity to stabilize perovskite solar modules
University of North Carolina at Chapel Hill · Applied Physical Sciences (United States) · +1 more institution
Abstract
Phosphonic acid (PA)–based interlayers used in metal-halide perovskite solar cells (PSCs) can suffer from instability at elevated temperatures. We report that the acidic protons of PAs weakly bound to indium tin oxide (ITO) can accelerate the oxidation of iodide, decomposition of formamidinium, and reduction of lead ions and that these reactions accelerate at high temperature and on exposure to ultraviolet light. Also, some common PA molecules weakly bonded to ITO can desorb and react with perovskites. We synthesized a bis(diarylamino)biphenyl-based PA that binds more strongly to ITO and show that its use in PSCs led to an operational lifetime of nearly 3000 hours with 10% efficiency loss (T 90 ) at 85°C under…
Citation impact
- FWCI
- 133.62
- Percentile
- 100%
- References
- 46
Authors
16- CFChengbin Fei
University of North Carolina at Chapel Hill, Applied Physical Sciences (United States)
- YZYadong Zhang
University of Colorado Boulder
- MWMengru Wang
University of North Carolina at Chapel Hill, Applied Physical Sciences (United States)
- YYYuqian Yang
University of North Carolina at Chapel Hill, Applied Physical Sciences (United States)
- XSXiaoqiang Shi
University of North Carolina at Chapel Hill, Applied Physical Sciences (United States)
Topics & keywords
- Perovskite (structure)
- Halide
- Ultraviolet
- Indium tin oxide
- Tin
- Metal
- Limiting
- Reactivity (psychology)
- Affordable and clean energy