Login / Signup

Efficient Homojunction Tin Perovskite Solar Cells Enabled by Gradient Germanium Doping.

Zhenzhu ZhaoMulin SunYuyang JiKaitian MaoZongming HuangChengjian YuanYuqian YangHonghe DingYingguo YangYu LiWenjing ChenJun-Fa ZhuJing WeiJixian XuWatcharaphol ParitmongkolAntonio AbateZhengguo XiaoLixin HeQin Hu
Published in: Nano letters (2024)
P-type self-doping is known to hamper tin-based perovskites for developing high-performance solar cells by increasing the background current density and carrier recombination processes. In this work, we propose a gradient homojunction structure with germanium doping that generates an internal electric field across the perovskite film to deplete the charge carriers. This structure reduces the dark current density of perovskite by over 2 orders of magnitude and trap density by an order of magnitude. The resultant tin-based perovskite solar cells exhibit a higher power conversion efficiency of 13.3% and excellent stability, maintaining 95% and 85% of their initial efficiencies after 250 min of continuous illumination and 3800 h of storage, respectively. We reveal the homojunction formation mechanism using density functional theory calculations and molecular level characterizations. Our work provides a reliable strategy for controlling the spatial energy levels in tin perovskite films and offers insights into designing intriguing lead-free perovskite optoelectronics.
Keyphrases