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利用分子动力学方法,采用三体简化模型及刚性转子近似,模拟计算了同核双原子分子O2小角度入射Ag(111)表面,分子碰撞诱导解离几率,结果与实验规律一致。同时也获得了入射分子取向效应及散射分子的角分布对碰撞能的依赖关系等动力学信息。 相似文献
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在含时量子计算方法的基础,利用量子散射中的角动量耦合理论等,导出了分子与固体表面非弹性散射的计算公式,对分子(H2,D2)与粗糙固体表面在较低能量下的非弹性散射做了计算,得出了模型势下的散射规律。 相似文献
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采用第一性原理研究了H2O分子在Fe(100),Fe(110),Fe(111)三个高对称晶面上的表面吸附.结果表明,H2O分子在三个晶面上的最稳定结构皆为平行于基底表面的顶位吸附结构.H2O分子与三个晶面相互作用的吸附能及几何结构计算结果表明H2O分子与三个晶面的相互作用程度不同,H2O分子与Fe(111)晶面的相互作用最强,其次是Fe(100),相互作用最弱的是Fe(110)表面,而这与晶面原子
关键词:
第一性原理
Fe单晶表面
2O分子')" href="#">H2O分子
分子吸附 相似文献
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在低压化学气相沉积条件下,金刚石附氢表面脱氢势垒的大小是金刚石薄膜生长动力学的重要理论参数,前人用不同方法对该势垒值的计算给出了很不一致的理论结果,本文应用多种分子轨道方法对金刚石附氢(111)面的脱氢势垒进行了系统研究,比较了各方法计算的过滤态结构,给出了修正的理论预言值,并论证了不同分子轨道方法计算结果的优劣,评价了前人不相一致的理论结果。 相似文献
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纳米银的形貌对VB_2和YDDS表面增强拉曼散射的影响 总被引:2,自引:2,他引:0
研究了 VB2 和 YDDS吸附在四种不同形状和线度的纳米银上的拉曼光谱 ,纳米银的形状和线度对同一和不同吸附分子的表面增强拉曼散射均有不同的影响。 相似文献
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本文对二种具有新奇结构的[NaXY]2WnMo6-nO19(Ⅰ.X=DB18C6,Y=CH3OH,n=4;Ⅱ.X=DB24C8,n=1)冠醚钼钨杂多酸超分子配合物进行了核磁共振和红外光谱测定,判定了谱图的归属并考察了结构与谱学参数之间的关系。 相似文献
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金属Zn液态结构变化的研究 总被引:2,自引:0,他引:2
利用TB模型给出的原子间相互作用势详细计算了不同温度下Zn的双体分布函数g(r),结果发现随着温度的不断降低,液态金属Zn的g(r)第一峰变得高而尖,第二峰由弱变强,说明了液态金属Zn的有序度随温度降低而不断增强;利用键对分析技术统计了液态金属Zn在不同温度下的键取向序参数、键对数。键取向序参数及键对数随温度的变化,进一步证明了低温液态的有序度高于高温液态,从而充分说明液态金属在不同温度下有不同的结构形式,而不像人们想象得那样杂乱无章。 相似文献
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本采用带有截断函数的极化势,为确定其中的可调参数,给出了一个经验公式:r↑-/r0=0.618。通过慢电子与亚稳态He(2^3S)弹性散射总截面的计算,表明本确定的极化势更准确地描述了慢电子与亚稳态He弹性散射的实际过程。 相似文献
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Lattice dynamical calculations of ice VIII have been carried out by using a slightly modified set of force constants obtained recently for ice Ih (Li J C and Ross D K 1993 Nature 365 327). A weak interaction was introduced between the two interpenetrated sublattices in the ice VIII structure. The calculated results for H2O and D2O ice VIII are in reasonable agreement with the measured inelastic neutron scattering spectra. The eigenvectors of phonon modes in the range of translational and librational bands have been studied in order to understand the properties of the vibrational modes. It is found that the third peak at 26.7meV in the translation results from weak hydrogen bond interactions, and the first peak (14.7meV) is much higher than it is in ice Ih (~7.1meV), which is partially due to the interactions between the two sublattices. 相似文献
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Lattice dynamical calculations have been carried out for ice II based on the force field constructed for ice Ih. In order to fully understand ice II inelastic neutron scattering spectra, the decomposed phonon density of states was shown mode by mode. Calculated results have shown that the hydrogen bond force constant between the six-molecule rings is significantly weaker, 75eV/nm2, compared with the force constant, 220eV/nm2, within the rings. Inelastic neutron scattering spectra of clathrate hydrate H2O+He are almost the same as ice II. This means that the absorption of He atoms cannot affect the bond strengths of the ice II host lattice. Based on the force field model for ice II, the van der Waals interactions between water molecules and helium atoms are considered. The results obtained are consistent with experimental data. Lattice dynamical calculations have been carried out for ice II using seven rigid pairwise potentials. It was found that MCY makes the stretching and bending interactions in ice II too weak and makes the O-O bond length too long (~5%), thus its lattice densities are obviously lower than other potential lattices or experimental values. 相似文献
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