Recent advances in ionic molecules applied in perovskite solar cells

Abstract: Perovskite solar cells (PSCs) were the most promising photovoltaic techniques owing to their advantages of high efficiency and roll-to-roll compatibility. In the past year, many efforts have been dedicated to...

“…32 In general, organic small molecules containing phosphoric and carboxylic acids are among the most frequently used passivation agents of SnO 2 ETL. 33 T h i s c o n t e n t i s However, amino acid polymers with biological activity are rarely used as passivation agents, and even less research has been done on their impact mechanisms. Polyaspartic acid (PASP) is an amino acid polymer that naturally exists in the shells of snails and mollusks and is a biodegradable and environmentally friendly metal ion chelating agent.…”

“…MOACl improves the film quality of SnO 2 , boosting the overall PCE of the cells to 24.34% . In general, organic small molecules containing phosphoric and carboxylic acids are among the most frequently used passivation agents of SnO 2 ETL . However, amino acid polymers with biological activity are rarely used as passivation agents, and even less research has been done on their impact mechanisms.…”

Natural Chelating Agent-Treated Electron Transfer Layer for Friendly Environmental and Efficient Perovskite Solar Cells

“…32 In general, organic small molecules containing phosphoric and carboxylic acids are among the most frequently used passivation agents of SnO 2 ETL. 33 T h i s c o n t e n t i s However, amino acid polymers with biological activity are rarely used as passivation agents, and even less research has been done on their impact mechanisms. Polyaspartic acid (PASP) is an amino acid polymer that naturally exists in the shells of snails and mollusks and is a biodegradable and environmentally friendly metal ion chelating agent.…”

“…MOACl improves the film quality of SnO 2 , boosting the overall PCE of the cells to 24.34% . In general, organic small molecules containing phosphoric and carboxylic acids are among the most frequently used passivation agents of SnO 2 ETL . However, amino acid polymers with biological activity are rarely used as passivation agents, and even less research has been done on their impact mechanisms.…”

Natural Chelating Agent-Treated Electron Transfer Layer for Friendly Environmental and Efficient Perovskite Solar Cells