Adjusting the Crystallization of Tin Perovskites through Thiophene Additives for Improved Photovoltaic Stability
Omar E. Solis, Miriam Mínguez-Avellán, Pablo F. Betancur, Raúl Iván Sánchez Alarcón, Isabelle Rodríguez, Juan P. Martínez‐Pastor, Teresa S. Ripollés, Rafael Abargues, Pablo P. Boix
Abstract
High Resolution Image Download MS PowerPoint Slide Tin-based perovskites (Sn-PVK) are promising lead-free alternatives for efficient photovoltaic technology, but they face challenges related to bulk and surface defects due to suboptimal crystallization and Sn 2+ oxidation. Introducing thiophene-2-ethylammonium halides (TEAX, where X = I, Br, Cl) improves FASnI 3 crystallization and reduces Sn 4+ formation. This is achieved by adjusting the crystallization dynamics through the formation of a complex between S and Sn during the preparation of the precursor solution, which also inhibits Sn 2+ oxidation in the resulting films. In solar cells, these additives boost power conversion efficiency (PCE) from 6.6% (without additives) to 9.4% (using TEABr), with further enhancement to 12% by adjusting selective contacts. The addition of TEAX also increases the Sn 2+ content, outperforming control. Devices with TEABr maintained over 95% of their initial PCE after 2000 h in N 2 under continuous operation with 1 sun simulated illumination.