A Sweeter Solution: Caramelized Sucrose Additives Render Eco-Friendly and High-Performance Perovskite Solar Cells

Abstract

The strategic incorporation of additives into perovskite solar cells (PSCs) has emerged as a pivotal approach for enhancing power conversion efficiency (PCE) while using minimal material input and facile processing. This study presents an in-depth investigation into the application of naturally abundant, cost-effective, and environmentally sustainable additives-sugar and its caramelized derivatives-in PSCs, culminating in a record PCE of 25.26% (certified 25.07%) among reported PSCs utilizing natural materials as additives. Furthermore, the fabricated devices exhibit exceptional long-term stability, retaining over 80% of their initial efficiency following 1000 h of continuous light exposure. While refined, and recrystallized sucrose proves ineffective due to strong hydrogen bonding, caramelized sucrose is identified as a highly effective additive, with disaccharides thermally decomposing at 220 degrees C-yielding H-demonstrating superior performance over those processed below 200 degrees C, which predominantly forms caramelan, caramelin, and caramelen. The observed enhancement in photovoltaic performance is attributed to the proportional differences in hydroxyl, carboxylic, and carbonyl functional groups in the additives, with carbonyl functionalities playing the dominantly favorable role in augmenting PSC performance while hydroxyl groups do the opposite.