郭慧敏

个人信息Personal Information

副教授

硕士生导师

性别:女

毕业院校:Regensburg大学

学位:博士

所在单位:化学学院

学科:分析化学

电子邮箱:guohm@dlut.edu.cn

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Long-Lived Room-Temperature Near-IR Phosphorescence of BODIPY in a Visible-Light-Harvesting N C N PtII-Acetylide Complex with a Directly Metalated BODIPY Chromophore

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论文类型:期刊论文

发表时间:2012-02-01

发表刊物:CHEMISTRY-A EUROPEAN JOURNAL

收录刊物:SCIE、EI、PubMed、Scopus

卷号:18

期号:7

页面范围:1961-1968

ISSN号:0947-6539

关键字:BODIPY; chromophores; phosphorescence; photochemistry; platinum

摘要:Room-temperature long-lived near-IR phosphorescence of boron-dipyrromethene (BODIPY) was observed (lambda em=770 nm, Phi(P)=3.5%, tau P=128.4 mu s). Our molecular-design strategy is to attach PtII coordination centers directly onto the BODIPY p-core using acetylide bonds, rather than on the periphery of the BODIPY core, thus maximizing the heavy-atom effect of Pt-II. In this case, the intersystem crossing (ISC) is facilitated and the radiative decay of the T1 excited state of BODIPY is observed, that is, the phosphorescence of BODIPY. The complex shows strong absorption in the visible range (e=53800M(-1)cm(-1) at 574 nm), which is rare for Pt-II-acetylide complexes. The complex is dual emissive with 3MLCT emission at 660 nm and the 3IL emission at 770 nm. The T1 excited state of the complex is mainly localized on the BODIPY moiety (i.e. 3IL state, as determined by steady-state and time-resolved spectroscopy, 77 K emission spectra, and spin-density analysis). The strong visible-light-harvesting ability and long-lived T1 excite state of the complex were used for triplet-triplet annihilation based upconversion and an upconversion quantum yield of 5.2?% was observed. The overall upconversion capability (eta=epsilon x Phi(UC)) of this complex is remarkable considering its strong absorption. The model complex, without the BODIPY moiety, gives no upconversion under the same experimental conditions. Our work paves the way for access to transition-metal complexes that show strong absorption of visible light and long-lived 3IL excited states, which are important for applications in photovoltaics, photocatalysis, and upconversions, etc.