The electronic and optical properties of TiS2 are studied of density functional theory. A linearized and augmented by using an ab-initio calculation within the frame plane wave basis set with the generalized gradient ...The electronic and optical properties of TiS2 are studied of density functional theory. A linearized and augmented by using an ab-initio calculation within the frame plane wave basis set with the generalized gradient approximation as proposed by Perdew et al. is used for the energy exchange-correlation determination. The results show a metallic character of TiS2, and the plots of total and partial densities of states of TiS2 show the metallic character of the bonds and a strong hybridization between the states d of Ti and p of S below the Fermi energy. The optical properties of the material such as real and imaginary parts of dielectric constant (ε(w) = ε1(w) + iε2(w)), refractive index n(w), optical reflectivity R(w), for E / /x and E / /z are performed for the energy range of 0-.14 eV.展开更多
采用不同的实验方法制备了M oS2纳米管,并对其结构、形貌及储氢性能进行了研究.实验表明,经KOH处理的M oS2纳米管在25℃及3 M Pa时,气态储氢容量达到1.2 w t%,在25℃及50 mA.-g 1的放电电流密度下,阳大的电化学储氢容量可达262 mA h.-g...采用不同的实验方法制备了M oS2纳米管,并对其结构、形貌及储氢性能进行了研究.实验表明,经KOH处理的M oS2纳米管在25℃及3 M Pa时,气态储氢容量达到1.2 w t%,在25℃及50 mA.-g 1的放电电流密度下,阳大的电化学储氢容量可达262 mA h.-g 1(相当于1.0 w t%的储氢量);而T iS2纳米管在25℃及4M Pa时气态储氢容量达到2.5 w t%.因此,M oS2和T iS2化合物纳米管具有潜在的储氢应用前景.展开更多
文摘The electronic and optical properties of TiS2 are studied of density functional theory. A linearized and augmented by using an ab-initio calculation within the frame plane wave basis set with the generalized gradient approximation as proposed by Perdew et al. is used for the energy exchange-correlation determination. The results show a metallic character of TiS2, and the plots of total and partial densities of states of TiS2 show the metallic character of the bonds and a strong hybridization between the states d of Ti and p of S below the Fermi energy. The optical properties of the material such as real and imaginary parts of dielectric constant (ε(w) = ε1(w) + iε2(w)), refractive index n(w), optical reflectivity R(w), for E / /x and E / /z are performed for the energy range of 0-.14 eV.
文摘采用不同的实验方法制备了M oS2纳米管,并对其结构、形貌及储氢性能进行了研究.实验表明,经KOH处理的M oS2纳米管在25℃及3 M Pa时,气态储氢容量达到1.2 w t%,在25℃及50 mA.-g 1的放电电流密度下,阳大的电化学储氢容量可达262 mA h.-g 1(相当于1.0 w t%的储氢量);而T iS2纳米管在25℃及4M Pa时气态储氢容量达到2.5 w t%.因此,M oS2和T iS2化合物纳米管具有潜在的储氢应用前景.