Boosting mechanical durability under high humidity by bioinspired multisite polymer for high-efficiency flexible perovskite solar cells
Northwestern Polytechnical University · Henan University · +4 more institutions
Abstract
Flexible perovskite solar cells (FPSCs) with high stability in moist air are required for their practical applications. However, the poor mechanical stability under high humidity air remains a critical challenge for flexible perovskite devices. Herein, inspired by the exceptional wet adhesion of mussels via dopamine groups, we propose a multidentate-cross-linking strategy, which combine multibranched structure and adequate dopamine anchor sites in three-dimensional hyperbranched polymer to directly chelate perovskite materials in multiple directions, therefore construct a vertical scaffold across the bulk of perovskite films from the bottom to the top interfaces, intimately bind to the perovskite grains and…
Citation impact
- FWCI
- 52.62
- Percentile
- 100%
- References
- 62
Authors
13- ZLZhihao LiCorresponding
Northwestern Polytechnical University, Henan University, Northwestern Polytechnic University
- CJChunmei Jia
Northwestern Polytechnical University
- ZWZhi Wan
Northwestern Polytechnical University
- JCJunchao Cao
Northwestern Polytechnical University
- JSJishan Shi
Northwestern Polytechnical University
Topics & keywords
- Materials science
- Humidity
- Perovskite (structure)
- Polymer
- Durability
- Adhesion
- Nanotechnology
- Composite material
- Affordable and clean energy