The current project used surface-enhanced Raman spectroscopy to observe the degree of charge-transfer for Ag/PATP/ZnO sandwich compounds as a function of both ZnO nanoparticle size and as a function of excitation wavelength.
The project found that there are several likely charge-transfer resonances. The most obvious is the resonance at particle diameter of 27.7 nm for all wavelengths. In a theoretical study it has been suggested that when there is an electron acceptor on the nanoparticle surface, it may form a complex with the semiconductor exciton and that this is most likely the origin of the size-dependent resonance. At the smallest size (18.2 nm) studied here, there was an increase in degree of charge-transfer (relative to adjacent sizes), indicating the possibility of another, lower-lying charge-transfer state, which also could be caused by the acceptor−exciton complex. The other resonance suggested by project data is to higher excitation energy for all particle sizes. The degree of charge-transfer was observed rising as the excitation wavelength was shortened, indicating an additional charge-transfer resonance in the ultraviolet. (publisher abstract modified)
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