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Steric hindrance induced low exciton binding energy enables low-driving-force organic solar cells

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摘要 Exciton binding energy(E_(b))has been regarded as a critical parameter in charge separation during photovoltaic conversion.Minimizing the E_(b) of the photovoltaic materials can facilitate the exciton dissociation in low-driving force organic solar cells(OSCs)and thus improve the power conversion efficiency(PCE);nevertheless,diminishing the E_(b) with deliberate design principles remains a significant challenge.Herein,bulky side chain as steric hindrance structure was inserted into Y-series acceptors to minimize the E_(b) by modulating the intra-and intermolecular interaction.Theoretical and experimental results indicate that steric hindrance-induced optimal intra-and intermolecular interaction can enhance molecular polarizability,promote electronic orbital overlap between molecules,and facilitate delocalized charge trans-fer pathways,thereby resulting in a low E_(b).The conspicuously reduced E_(b) obtained in Y-ChC5 with pinpoint steric hindrance modulation can minimize the detrimental effects on exciton dissociation in low-driving-force OSCs,achieving a remarkable PCE of 19.1%with over 95%internal quantum efficiency.Our study provides a new molecular design rationale to reduce the E_(b).
出处 《Aggregate》 EI CAS 2024年第5期501-511,共11页 聚集体(英文)
基金 National Natural Science Foundation of China,Grant/Award Numbers:52203225,52073122,22375077,22008184 Key R&D Project of Hubei Province,Grant/Award Number:2022BAA095 Hubei Natural Science Foundation,Grant/Award Number:2022CFB903 Special Project from Jianghan University,Grant/Award Number:2022XKZX02 Ministry of Science and Technology of China,Grant/Award Number:2021YFE0113600 Excellent Discipline Cultivation Project by JHUN,Grant/Award Numbers:2023XKZ010,2023XKZ014。
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