Journal of Surface Science and Technology

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Photoinduced Electron Dynanics in A Phosphate Heterostructure Dispersed with C60-Nanoclusters


Affiliations
1 Central Glass and Ceramic Research Institute, 196, Raja S. C. Mullick Road. Kolkata-700 032, India
     

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Development of a series of lead phosphate heterostructures dispersed with C60-nanoclusters which upon 230-400 nm UV irradiation show a phenomenon of electron transfer from the divalent lead centre (Pb+2) of the lead phosphate network to the incorporated fullerene, has been reported. Studies of the steady state photoinduced absorption and photoinduced ESR spectra showed formation of Pb+3 type of hole and C60-nanocluster anions in the irradiated composite. The charge separated state thus formed has life time ranging from few hours to days, which is higher than those hitherto reported for various cased donor acceptor systems. An analysis of the carrier-dynamics suggests that the photoinduced migration of electrons from the hole-sites to the fullerene sites involves two steps : 1) Trapping of the electrons released from the Pb-sites by the UV, within the phosphate-network and 2) Detrapping and tunneling of these electrons from the trap sites to the fullerene sites by the electron-scavenging effect of the latter.

Keywords

Photoinduced Electron Dynamics, Phosphate Heterostructure, C60-Nanoclusters.
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  • Photoinduced Electron Dynanics in A Phosphate Heterostructure Dispersed with C60-Nanoclusters

Abstract Views: 287  |  PDF Views: 2

Authors

R. Sahoo
Central Glass and Ceramic Research Institute, 196, Raja S. C. Mullick Road. Kolkata-700 032, India
D. Banerjee
Central Glass and Ceramic Research Institute, 196, Raja S. C. Mullick Road. Kolkata-700 032, India
R. Debnath
Central Glass and Ceramic Research Institute, 196, Raja S. C. Mullick Road. Kolkata-700 032, India

Abstract


Development of a series of lead phosphate heterostructures dispersed with C60-nanoclusters which upon 230-400 nm UV irradiation show a phenomenon of electron transfer from the divalent lead centre (Pb+2) of the lead phosphate network to the incorporated fullerene, has been reported. Studies of the steady state photoinduced absorption and photoinduced ESR spectra showed formation of Pb+3 type of hole and C60-nanocluster anions in the irradiated composite. The charge separated state thus formed has life time ranging from few hours to days, which is higher than those hitherto reported for various cased donor acceptor systems. An analysis of the carrier-dynamics suggests that the photoinduced migration of electrons from the hole-sites to the fullerene sites involves two steps : 1) Trapping of the electrons released from the Pb-sites by the UV, within the phosphate-network and 2) Detrapping and tunneling of these electrons from the trap sites to the fullerene sites by the electron-scavenging effect of the latter.

Keywords


Photoinduced Electron Dynamics, Phosphate Heterostructure, C60-Nanoclusters.