Add to ORKGThe pressure dependence of the photoluminescence (PL) transition associated with the fundamental band gap of ZnO nanowires has been studied at pressures up to 15 GPa. ZnO nanowires are found to have a higher structural phase transition pressure around 12 GPa as compared to 9.0 GPa for bulk ZnO. The pressure-induced energy shift of the near band-edge luminescence emission yields a linear pressure coefficient of 29.6 meV/GPa with a small sublinear term of -0.43 meV/GPa{sup 2}. An effective hydrostatic deformation potential -3.97 eV for the direct band gap of the ZnO nanowires is derived from the result
We report microphotoluminescence measurements on individually suspended ZnO nanowires attached to na...
The topic of this dissertation is embedded into the new-born field of inorganic nanowires. The resea...
We report on the photoluminescence studies of ZnO and ZnCdO nanowires grown on SiO$\text{}_{2}$/Si s...
The temperature and pressure dependences of band-edge photo luminescence from ZnO microrods have bee...
The structural transition of ZnO nanowires at high pressures from wurtzite to rocksalt structure has...
The elastic properties of InP nanowires are investigated by photoluminescence measurements under hyd...
The grain-size effect on phase transition induced by pressure in ZnO nanocrystals has been investig...
Control and design of native defects in semiconductors are extremely important for industrial applic...
The pressure behavior of the ultraviolet (UV) and green emission bands in ZnO tetrapod-like micro-ro...
The electronic-mechanical coupling in semiconductor nanostructures under different strain loading mo...
We have investigated the photoluminescence (PL) of ZnO nanowires (NWs) containing a high density (si...
We conduct systematical cathodoluminescence study on red-shift of near-band-edge emission energy in ...
Zinc oxide (ZnO) nanowires are widely studied for use in ultraviolet optoelectronic devices, such as...
Bandgap engineering is a common practice for tuning semiconductors for desired physical properties. ...
Ultrathin ZnO nanowires have been fabricated by a vapor-phase transport process via the vapor-liquid...
We report microphotoluminescence measurements on individually suspended ZnO nanowires attached to na...
The topic of this dissertation is embedded into the new-born field of inorganic nanowires. The resea...
We report on the photoluminescence studies of ZnO and ZnCdO nanowires grown on SiO$\text{}_{2}$/Si s...
The temperature and pressure dependences of band-edge photo luminescence from ZnO microrods have bee...
The structural transition of ZnO nanowires at high pressures from wurtzite to rocksalt structure has...
The elastic properties of InP nanowires are investigated by photoluminescence measurements under hyd...
The grain-size effect on phase transition induced by pressure in ZnO nanocrystals has been investig...
Control and design of native defects in semiconductors are extremely important for industrial applic...
The pressure behavior of the ultraviolet (UV) and green emission bands in ZnO tetrapod-like micro-ro...
The electronic-mechanical coupling in semiconductor nanostructures under different strain loading mo...
We have investigated the photoluminescence (PL) of ZnO nanowires (NWs) containing a high density (si...
We conduct systematical cathodoluminescence study on red-shift of near-band-edge emission energy in ...
Zinc oxide (ZnO) nanowires are widely studied for use in ultraviolet optoelectronic devices, such as...
Bandgap engineering is a common practice for tuning semiconductors for desired physical properties. ...
Ultrathin ZnO nanowires have been fabricated by a vapor-phase transport process via the vapor-liquid...
We report microphotoluminescence measurements on individually suspended ZnO nanowires attached to na...
The topic of this dissertation is embedded into the new-born field of inorganic nanowires. The resea...
We report on the photoluminescence studies of ZnO and ZnCdO nanowires grown on SiO$\text{}_{2}$/Si s...