Structural change dynamics of heteroleptic Cu(i) complexes observed by ultrafast emission spectroscopy

化学 系统间交叉 发射光谱 乙腈 光谱学 量子产额 时间分辨光谱学 超快激光光谱学 吸收光谱法 光化学 分析化学(期刊) 谱线 激发态 物理化学 荧光 单重态 原子物理学 物理 天文 量子力学 色谱法
作者
Masashi Sanga,Michiko Iwamura,Kôsuke Nakamura,Koichi Nozaki,Hiroyuki Takeda,Yu Monma,Osamu Ishitani
出处
期刊:Physical Chemistry Chemical Physics [Royal Society of Chemistry]
卷期号:25 (23): 15873-15884 被引量:3
标识
DOI:10.1039/d3cp01473h
摘要

[Cu(I)(dmp)(P)2]+ (dmp = 2,9-dimethyl-1,10-phenanthroline derivatives; P = phosphine ligand) is one of the most promising photosensitizers used in a photo-catalytic system for reducing CO2, for which the quantum yield is as high as 57%. In this work, time-resolved emission spectra of Cu(I) complexes in solutions were investigated using femtosecond fluorescence up-conversion and nanosecond time-resolved emission spectroscopic systems. The temporal profiles of emission intensities less than 10 ps in acetonitrile solution were reproduced using a tri-exponential function with three-time constants of 0.040 ps, 0.78 ps and 8.0 ps. We found that only the second time constant is dependent on the solvent (acetonitrile: 0.78 ps, butyronitrile: 1.4 ps), indicating that the 0.78 ps spectral change is attributed to the structural change of the Cu(I) complex. The oscillator strengths of transition species are derived from the intensities in the time-resolved emission spectra (species-associated spectra). Based on the oscillator strengths, we concluded that the 0.040 ps process is the Sn → S1 internal conversion and the 0.78 ps process is a structural change in the S1 state. The final time constant of 8.0 ps is assigned to the S1 → T1 intersystem crossing because the 3MLCT state (τT1 = 97 ns) is generated after the decay. The DFT calculation showed that the 0.78 ps spectral change (∼600 cm-1 redshift) is attributed to Jahn-Teller distortion around the metal center, and there is a large structural change in the ligand, which results in a large Stokes shift in the Sn state (7.3 × 103 cm-1).

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