Role of Charge-Carrier Dynamics Toward the Fabrication of Efficient Air-Processed Organic Solar Cells

• Published in: Small methods Vol. 8; no. 2; p. e2300578
• Main Authors: Rasool, Shafket, Yeop, Jiwoo, An, Na Gyeong, Kim, Jae Won, Kim, Jin Young
• Format: Journal Article
• Language: English
• Published: Germany 01.02.2024
• Subjects: charge-separated states; energy-loss; charge-transfer states; hole-transfer efficiencies; electroluminescence; transient absorption spectroscopy; excitons; charge-carrier dynamics
• ISSN: 2366-9608
• DOI: 10.1002/smtd.202300578

Over the past couple of decades, immense research has been carried out to understand the photo-physics of an organic solar cell (OSC) that is important to enhance its efficiency and stability. Since OSCs undergoes complex photophysical phenomenon, studying these factors has led to designing new materials and implementing new strategies to improve efficiency in OSCs. In this regard, the invention of the non-fullerene acceptorshas greatly revolutionized the understanding of the fundamental processes occurring in OSCs. However, such vital fundamental research from device physics perspectives is carried out on glovebox (GB) processed OSCs and there is a scarcity of research on air-processed (AP) OSCs. This review will focus on charge carrier dynamics such as exciton diffusion, exciton dissociation, charge-transfer states, significance of highest occupied molecular orbital-offsets, and hole-transfer efficiencies of GB-OSCs and compare them with the available data from the AP-OSCs. Finally, key requirements for the fabrication of efficient AP-OSCs will be presented from a charge-carrier dynamics perspective. The key aspects from the charge-carrier dynamics view to fabricate efficient OSCs either from GB or air are provided.