Enhanced Fluorescence and Local Vibrational Mode in Near‐White‐Light‐Emitting ZnO:Mg Nanorods System

Abstract: We report exciton and phonon properties of ZnO:Mg nanorods of different Mg doping concentration. X-ray diffraction studies (XRD) confirm the growth of wurtzite phase ZnO nanostructures. XRD reveals doping-induced shift in peaks and formation of secondary phase related to Mg. Optical properties of the prepared nanorods are investigated by using UV-Visible absorption and photoluminescence spectroscopic techniques. Optical absorption studies show strong free excitonic absorption of ZnO and extra absorption bands … Show more

“…As lattice distortions and surface phonon modes cause variation in the position of the IR modes of ZnO nanorods, the exact assignment is difficult. The broad band 560–860 cm −1 corresponds to first‐ and second‐order longitudinal optical modes of ZnO lattice [ 38 ] with possible overlapping of ZnO and GaO vibrations. [ 39 ] Moreover, the infrared absorption spectra show negligible organic contamination manifested by weak CH stretching vibrations in the 2800–3000 cm −1 spectral range.…”

Plasma Treatment of Ga‐Doped ZnO Nanorods

“…As lattice distortions and surface phonon modes cause variation in the position of the IR modes of ZnO nanorods, the exact assignment is difficult. The broad band 560–860 cm −1 corresponds to first‐ and second‐order longitudinal optical modes of ZnO lattice [ 38 ] with possible overlapping of ZnO and GaO vibrations. [ 39 ] Moreover, the infrared absorption spectra show negligible organic contamination manifested by weak CH stretching vibrations in the 2800–3000 cm −1 spectral range.…”

Plasma Treatment of Ga‐Doped ZnO Nanorods

Humidity-sensing properties of hierarchical TiO2:ZnO composite grown on electrospun fibers

Zn1-xMgxO nanoparticles prepared by the polymeric precursor method: Correlation between photoluminescence and local structure