The chemical shift of Na-23 in excimer NaXe was measured by using nuclear magnetic resonance (NMR) spectra, which is in good agreement with the theoretical value obtained by ab initio calculations. The bond length, di...The chemical shift of Na-23 in excimer NaXe was measured by using nuclear magnetic resonance (NMR) spectra, which is in good agreement with the theoretical value obtained by ab initio calculations. The bond length, dissociation energy, dipole of NaXe and Mulliken charges at Na and Xe in NaXe were calculated, respectively. The spectra of ultraviolet (UV) fluorescence and surface-enhanced Raman scattering of NaXe were also measured.展开更多
NMR microscopy has received great attention from various fields of research, especially material science by its possibility to study materials directly without destruction. Although this technique is almost limited to...NMR microscopy has received great attention from various fields of research, especially material science by its possibility to study materials directly without destruction. Although this technique is almost limited to the detection of fluids constricted in solid samples, such as water in biological systems, solvent diffused in a polymer material^1 and liquid saturated rock systems^2, the mechanical defects of high elastic rubbers have also been detected^3 We are extending this technique to the direct study of the effect of y-irradiation on cis 1, 4-polybutadiene (PB). This article deals with the investigation of radiation induced crosslinking of PB by NMR microscopy.展开更多
文摘The chemical shift of Na-23 in excimer NaXe was measured by using nuclear magnetic resonance (NMR) spectra, which is in good agreement with the theoretical value obtained by ab initio calculations. The bond length, dissociation energy, dipole of NaXe and Mulliken charges at Na and Xe in NaXe were calculated, respectively. The spectra of ultraviolet (UV) fluorescence and surface-enhanced Raman scattering of NaXe were also measured.
文摘NMR microscopy has received great attention from various fields of research, especially material science by its possibility to study materials directly without destruction. Although this technique is almost limited to the detection of fluids constricted in solid samples, such as water in biological systems, solvent diffused in a polymer material^1 and liquid saturated rock systems^2, the mechanical defects of high elastic rubbers have also been detected^3 We are extending this technique to the direct study of the effect of y-irradiation on cis 1, 4-polybutadiene (PB). This article deals with the investigation of radiation induced crosslinking of PB by NMR microscopy.
