共查询到17条相似文献,搜索用时 109 毫秒
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甲醇在Au(111)表面吸附的密度泛函研究 总被引:2,自引:0,他引:2
采用基于第一性原理的密度泛函理论和周期平板模型相结合的方法,对CH3OH分子在Au(111)表面top, fcc, hcp和bridge位的吸附模型进行了构型优化、能量计算以及Mulliken布居分析,结果表明top位是较有利的吸附位. 吸附的CH3OH解离产生甲氧基CH3O和H, 对它们在Au(111)面的吸附进行的计算表明, bridge和fcc位分别是二者的最佳吸附位. 对过渡态的计算给出了CH3OH在Au表面解离吸附的可能机理: 首先发生 O-H 键的断裂,继而生成甲氧基中间体. 相似文献
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研究了乙烷在Ni(111)表面解离的可能反应机理, 使用完全线性同步和二次同步变换(complete LST/QST)方法确定解离反应的过渡态. 采用基于第一性原理的密度泛函理论与周期平板模型相结合的方法, 优化了C2H6裂解反应过程中各物种在Ni(111)表面的top, fcc, hcp和bridge位的吸附模型, 计算了能量, 并对布居电荷进行分析, 得到了各物种的有利吸附位. 结果表明, 乙烷在Ni(111)表面C—C解离的速控步骤活化能为257.9 kJ·mol-1, 而C—H解离速控步骤活化能为159.8 kJ·mol-1, 故C—H键解离过程占优势, 主要产物是C2H4和H2. 相似文献
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Adsorption of methanol and methoxy at four selected sites(top,bridge,hcp,fcc)on Cu(111)surface has beeninvestigated by density functional theory method at the generalized gradient approximation(GGA)level.The cal-culation on adsorption energies,geometry and electronic structures,Mulliken charges,and vibrational frequenciesof CH_3OH and CH_3O on clean Cu(111)surface was performed with full-geometry optimization,and compared withthe experimental data.The obtained results are in agreement with available experimental data.The most favoriteadsorption site for methanol on Cu(111)surface is the top site,where C-O axis is tilted to the surface.Moreover,the preferred adsorption site for methoxy on Cu(111)surface is the fcc site,and it adsorbs in an upright geometrywith pseudo-C_(3v) local symmetry.Possible decomposition pathways also have been investigated by transition-statesearching methods.Methoxy radical,CH_3O,was found to be the decomposition intermediate.Methanol can be ad-sorbed on the surface with its oxygen atom directly on a Cu atom,and weakly chemisorbed on Cu(111)surface.Incontrast to methanol,methoxy is strongly chemisorbed to the surface. 相似文献
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The interaction of atomic oxygen with the clean Cu(100) surface has been studied by means of cluster and periodic slab models density functional theory in the present paper. The Cu(4,9,4) cluster and a three-layer slab with c(2×2) structure are used to model the perfect Cu(100) surface. Three possible adsorption sites,top, bridge and hollow site, were considered in the calculations. The predicted results show that the hollow site is the prefer site for atomic oxygen adsorbed on Cu(100) surface energetically. This is in good agreement with the experiment. The calculated binding energies are respective 2.014, 3.154 and 3.942 eV for top, bridge and hollow sites at mPW1PW91/LanL2dz level for the cluster model. The geometry of Cu(100) surface has also been optimized theoretically with various density functional methods and the results show that the prediction from the B3PW91/LanL2dz and mPW1PW91/LanL2dz reproduce the experimental observation.The frontier molecular orbitals and partial density of states analysis show that the electron transfer from the d orbital of substrate to the p orbital of the surface oxygen atom. 相似文献
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Using first-principles calculations, we studied the interaction of methanol with the Pt(100) surface based on generalized gradient approximation. We found that top sites of Pt(100) surface are the favored adsorptive positions in energy, and methanol molecule interacts with the Pt surface through oxygen atoms. Moreover, we also explored the possible dissociation pathways of methanol on the Pt surface, and suggested that the products of dissociation can be controlled by the external manipulation. 相似文献
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First-principles Periodic Density Functional Study of CO Adsorption on Spinel-type CuCr2O4 (100) Surface 下载免费PDF全文
The catalytic properties of CuCr2O4 with the cubic normal spinel-type structure were discussed by means of studying CO adsorption on the CuCr2O4 (100) surface in the framework of density functional theory. The results of geometry optimization show that CO prefers to adsorb at a Cu site with the adsorption energy of 133.2 kJ/mol. The adsorptions at all sites lead to a decrease in C-O stretching frequency, an increase in C-O bond length and a net positive Mulliken charge for the CO molecule. Population analysis indicates that the charges transfer from the CO molecule to substrate. The density of states for CO molecule before and after adsorption are also computed to discuss the bonding mechanism of CO. 相似文献
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运用密度泛函理论中广义梯度近似(GGA)的VWN-BP方法结合周期性平板模型, 研究N2在UO(100)表面的吸附. 研究表明, N2平行吸附在UO(100)表面穴位为最稳定吸附构型, 吸附能为79.0 kJ·mol-1. Mulliken布居分析显示, N2获得电子. 吸附后, N—N伸缩振动频率发生红移, 波数在1770-2143 cm-1之间. 态密度分析表明, U原子将d、f电子转移至N2的2π轨道. 计算所得解离反应的能垒为266.9 kJ·mol-1. 相似文献
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在密度泛函理论的框架下, 采用嵌入点电荷簇模型研究了O2在MgO(001)完整和缺陷表面上的吸附.用电荷自洽的方法确定了点电荷的值.计算结果表明, O2倾向吸附在低配位的角Mg2+端.并且发现, 当O2为平躺吸附时,键长有较大的拉伸,将有利于O2的解离.同时,分别计算了使用裸簇和嵌入表观±2.0 e点电荷簇模型时的吸附能,并与采用电荷自洽方法的计算值进行了比较.结果表明,电荷自洽方法更能有效反映簇周围的环境,得到的计算结果能够较好地与实验值吻合.最后,分别计算了不同吸附情况下O2的振动频率. 相似文献
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甲醇在Pt-Mo(111)/C表面上的吸附 总被引:1,自引:0,他引:1
采用密度泛函理论和周期平板模型相结合的方法, 对CH3OH分子在Pt-Mo(111)/C表面的顶位、穴位和桥位共计9种吸附模型进行了构型优化、能量计算和频率分析, 结果表明top-Pt位是较有利的吸附位. Mo掺杂后价带与导带位置均有不同程度的降低, 电子结构的变化使得Pt-Mo(111)/C的催化活性提高. 并且在考虑催化剂抗中毒性能时发现: CO在Pt(111)/C面上的吸附能比甲醇吸附能要高, CO在Pt-Mo(111)/C上的吸附能比甲醇的要低, 说明CO在Pt(111)/C面上的吸附会阻碍甲醇的吸附, 并影响催化过程的进行, 而Pt-Mo(111)/C的抗CO中毒化能力增强, 是催化氧化甲醇较好的催化剂. 相似文献