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基于非稠环二聚体受体作为第三组分的高效稳定有机太阳能电池OA

Highly efficient and stable organic solar cells based on dimeric non-fused ring acceptors as the third component

中文摘要英文摘要

本研究合成两种二聚非稠环电子受体D-2BTH2F-H/F,均衍生自2BTh-2F,经Stille反应制备,π桥分别为噻吩与氟化噻吩.基于D18:D-2BTH2F-H器件开路电压(Voc)为0.94 V、光电转换效率(PCE)为7.74%,优于基于D-2BTH2F-F的器件的Voc(0.91 V)和光电转换效率(6.95%).将D-2BTH2F-H作为第三组分引入D18:2BTH-2F体系可以调控活性层形貌、电荷传输等,器件的PCE从16.08%提升至17.95%.此外,器件的稳定性显著提升,T80时间从336 h延至1224 h.该策略为高效稳定OSC提供低成本效益方案,助力低成本高耐用太阳能电池开发.

Organic solar cells(OSCs)have emerged as a core research direction in new energy materials due to their lightweight,flexibility,and solution-processability.Bulk heterojunction(BHJ)-based OSCs have achieved continuous performance breakthroughs with power conversion efficiency(PCE)exceeding 20%in recent years,laying a critical foundation for practical commercialization.However,device lifetime has become a key bottleneck restricting large-scale application:under long-term storage or photo-thermal aging conditions,the BHJ active layer suffers from performance degradation due to the instability of its nano-interpenetrating network morphology,mainly caused by the aggregation of small-molecule acceptors(SMAs)that form large-sized domains and structural defects,damaging charge transport channels.To address this stability challenge,the oligomerization modification strategy for SMAs has been proposed,yielding polymer and oligomer acceptors.While polymer acceptors improve active layer stability by increasing molecular weight,they suffer from broad molecular weight distribution and significant batch-to-batch differences due to fluctuating coupling efficiency,failing to meet large-scale preparation requirements.In contrast,oligomer acceptors(especially dimer acceptors with two repeating units)overcome these limitations with fixed molecular structures,simple synthesis without complex molecular weight regulation,minimized batch-to-batch deviations,and effective inhibition of small-molecule migration/aggregation,achieving a triple balance of stability,synthetic simplicity,and batch reproducibility.Additionally,dimer acceptors serve as ideal third components in binary active layers:they induce ordered π-π stacking via intermolecular non-covalent interactions,precisely regulate active layer crystal size to match exciton diffusion length,reduce charge transport losses,and compensate for binary systems'deficiencies in morphology regulation and performance stability.Currently,most reported dimer acceptors are based on fused-ring electron acceptors,featuring complex synthesis and high costs,while non-fused-ring electron acceptors offer simple design,few synthetic steps,and low cost via intramolecular non-covalent interactions(e.g.,S…O,S…N interactions)and steric hindrance regulation.However,research on"non-fused-ring dimer acceptors"remains scarce,leaving a gap in combining non-fused-rings'low cost with dimers'lifetime and batch reproducibility advantages.To this end,this work designs and synthesizes a novel non-fused-ring dimer acceptor D-2BTH2F-H with simple preparation.The ternary OSCs based on D18:2BTH-2F:D-2BTH2F-H achieve a PCE of 17.95%and retain 80%of the initial efficiency after 1224 h of room-temperature storage,providing a new technical pathway for OSCs to balance low cost,high efficiency,long lifetime,and high batch reproducibility.

言行;刘亚辉;成叶太;舒亦洵;杨路瑶;王伟东;白欣鹭;陈亚男;路皓;薄志山

青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071||青岛大学材料科学与工程学院,山东 青岛 266071青岛大学材料科学与工程学院,山东 青岛 266071青岛大学纺织服装学院,山东 青岛 266071

化学化工

有机太阳能电池非稠环电子受体二聚体电子受体三元共混策略器件稳定性

Organic solar cellsNonfused ring electron acceptorDimeric electron acceptorTernary blend strategyDevice stability

《物理化学学报》 2026 (7)

130-139,10

山东省自然科学基金(ZR2023QB013,ZR2022YQ45)国家自然科学基金(52173174,52433007)泰山学者计划(tstp20221121,tsqnz20221134)

10.1016/j.actphy.2025.100228

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