J.F. Scott.Raman spectrum of SnO2.The Journal of Chemical Physics. 1970Scott JF (1970) Raman spectrum of SnO 2 . J Chem Phys 53:852–853Scott JF. Raman spectrum of SnO2. J Chem Phys 1970;53:852-3.J.F. Scott.Raman spectrum of SnO2. The Journal of Chemical Physics . 1970...
Fabrication of a high-temperature deep-ultraviolet photodetector working in the solar-blind spectrum range (190–280 nm) is a challenge due to the degradat... Rujia,Zou,Zhenyu,... - 《Small》 被引量: 19发表: 2014年 Growth behavior of β-Ga2O3 nanomaterials synthesized by catalyst-free the...
The first-order Raman spectrum of a bulk diamond displays only one triply degenerated Raman line at ω(∞) = 1332 cm−1. The shift of the first order Raman peak of the small DND is lower by a few wavenumbers than the shift observed for the bulk diamond. The Raman peak ...
spectrum(UV-VisDRS),H2一temperatureprogrammed reduction (H2一TPR)and02-temperatureprogrammeddesorption(02-TPD)techniques wereusedto analyze theshiftofthe F29 vibrationmodeof Ce02,oxygenvacancy concentrationandthe effectof sampleoptical absorbanceonRamaninformation,aswellasthemicrostructureand ...
Glass being a disorderly amorphous material, its Raman spectrum is characterized by a large number of wavelengths forming a continuous spectrum over a wide band of frequencies. The intensity of Raman emission increases with the input power applied to the material and becomes significant at a given...
In addition, the Raman peaks of SnO2 nanorods not only vary with the excitation wavelength (514.5 nm and 785 nm), but have their line-width broadening and the line shapes asymmetric as well. Moreover, some IR active modes became Raman-active induced by disorders such as local lattice ...
In addition, the Raman peaks of SnO2 nanorods not only vary with the excitation wavelength (514.5 nm and 785 nm), but have their line-width broadening and the line shapes asymmetric as well. Moreover, some IR active modes became Raman-active induced by disorders such as local lattice ...
The shift of the ESR signal to lower fields and the change in the line width are attributed to the anisotropy in the non-spherical particles and to the enhanced dipolar magnetic interactions with Fe concentrations. The Raman spectrum of pure and Fe doped SnO2 nanoparticles was found to be of...
nano-SnO2RamanspectrumlocallatticedisordervacancyclusterslatticespaceThe dependence of the microstructural change and lattice space symmetry of nano-SnO2 on the annealing temperature has been studied systematically using Raman spectroscopy and X-ray diffraction.Comparing the results of nano-SnO2 with the resul...
The Raman spectra of TiO 2-III imply that its primitive cell contains at least four formula units; however, the structure could not be established from the Raman spectra and available powder X-ray diffraction patterns. The temperature and pressure dependences of the spectrum of the tetragonal MO...