Micro-Raman spectra of E-2(high) phonon mode in Cu-doped ZnO nanocombs have been presented in detail with different Cu compositions under the temperature ranging from 83 to 443 K grown by a simple catalyst-free chemical vapor deposition method. The alloy disorder effect has been investigated by analyzing the asymmetric broadening of E-2(high) phonon mode and Cu-induced localized vibration mode at room temperature. In addition, we resort to a theory model including the lattice thermal expansion and anharmonic phonon-phonon interaction, which can well describe the temperature dependence of Raman shift and linewidth of E-2(high) phonon. In combining with the theory model, we have revealed an increasing anharmonic effect on the Raman shift and linewidth behaviors with increasing Cu composition. Furthermore, it is found that the lifetime of E-2(high) phonon mode shortens with enhancing the anharmonicity.

• 出版日期2016-9
• 单位上海交通大学; 上海应用技术大学; 五邑大学