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Photo-induced electron transfer between hypocrellins and nano-sized semiconductor CdS——EPR study on the kinetics of photosensitized reduction in HA-CdS and HB-CdS systems
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作者 周志祥 刘卫 +1 位作者 王芙媛 张志义 《Science China(Life Sciences)》 SCIE CAS 2001年第3期241-252,共12页
Both HA-CdS and HB-CdS (Hys-CdS, Hys represents HA, HB) complex systems were established according to the dynamics of heterogeneous electron-transfer process μ = Es/s+-ECB <0. In these systems, the electron transf... Both HA-CdS and HB-CdS (Hys-CdS, Hys represents HA, HB) complex systems were established according to the dynamics of heterogeneous electron-transfer process μ = Es/s+-ECB <0. In these systems, the electron transferring from 1Hys* to conduction band ofCdS is feasible. Determined from the fluorescence quenching, the apparent association constants (Kapp) between Hypocrellin A(HA), Hypocrellin B (HB) and CdS sol. were about 940 (mol/L)-1, 934 (mol/L)-1, respectively. Fluorescence lifetime measurements gave the rate constant for the electron transfer process from 1HA*, 1HB* into conduction band of CdS semiconductor as 5.16×109 s-1, 5.10×109 s-1, respectively. TEMPO (2,2,6,6-tetramethy-1-piperdinyloxy), a stable nitroxide radical, was used in the kinetic study of the reduction reaction taking place on the surface of a CdS colloidal semiconductor, kinetics equation of the reaction was determined with the electron paramagnetic resonance (EPR) method, and the reaction order of TEMPO is zero. When Hys were added, the rate of EPR increased greatly. By comparing rate constants, the Hys-CdS systems were revealed to be about 350 times more efficient than CdS sol. alone in the photoreduction of TEMPO under visible light. It suggests that Hys can be used as efficient sensitizers of a colloidal semiconductor in the application of solar energy. 展开更多
关键词 photosensitizer HA HB (hys) nano-sized semiconductor CdS apparent association constant (Kapp) TEMPO rate constant EPR.
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