激发态
三合会(社会学)
光化学
单重态
吩噻嗪
化学物理
电荷(物理)
光诱导电荷分离
溶剂效应
化学
分子振动
溶剂
分子物理学
电子结构
材料科学
蓝移
载流子
内部转换
激发电子态
聚二乙炔
带隙
激发
单重态裂变
重组
各向异性
原子物理学
计算化学
原子电子跃迁
作者
Midori Akiyama,Nami Tanaka,W. Ryan Osterloh,Hirofumi Sato,Hikaru Sotome,Akira Yamakata,Hiroshi Imahori
标识
DOI:10.1002/cplu.202500642
摘要
A phenothiazine (PTZ)-zincporphyrin (ZnP)-naphthalenediimide (NDI) triad was designed and synthesized to address the effects of electronic and vibrational excitations on photoinduced charge separation (CS) and charge recombination (CR). Upon photoexcitation, the singlet excited state of ZnP (1ZnP*) was generated and rapidly converted into a charge-transfer (CT) state with partial excited-state character, PTZ-(ZnPδ+-NDIδ-)*, in toluene, 1,2-dichloroethane, and benzonitrile. In toluene, a secondary CT process from PTZ to (ZnPδ+-NDIδ-)* produced a fully charge-separated state, PTZ•+-(ZnP-NDI)•-. This behavior arises from slower CR in nonpolar solvents, which proceeds in the Marcus inverted region due to weaker stabilization of the CT state and smaller reorganization energy. Additionally, enhancement and blueshift of the ethynyl stretching band (2100 cm-1) were observed in the excited states of PTZ-ZnP-NDI and ZnP-ref, indicating the intrinsic contribution of ethynyl groups in the excited-state of meso-ethynyl-substituted porphyrins. Simultaneous electronic and vibrational excitations did not influence the photoinduced CS and CR dynamics. These findings provide fundamental insights into manipulating charge-transfer and charge-separated states via external stimuli.
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