MgO上羟基的红外光谱表征：周期性和团簇密度泛函理论研究

Infrared characterization of hydroxyl groups on MgO: a periodic and cluster density functional theory study.

作者信息

Chizallet Céline, Costentin Guylène, Che Michel, Delbecq Françoise, Sautet Philippe

机构信息

Laboratoire de Réactivité de Surface, Université Pierre et Marie Curie-Paris 6, CNRS 4 place Jussieu, 75252 Paris Cedex 05, France.

出版信息

J Am Chem Soc. 2007 May 23;129(20):6442-52. doi: 10.1021/ja068720e. Epub 2007 Apr 28.

DOI:10.1021/ja068720e

PMID:17465545

Abstract

The infrared OH stretching frequencies of the various types of hydroxyl groups on MgO surfaces have been calculated by periodic (VASP) and cluster (Gaussian) DFT simulations. Surface irregularities (mono and diatomic steps, corners, step divacancies, and kinks) have been considered to model the IR spectra of hydroxylated MgO powders. A good correspondence between calculated and experimental frequencies is obtained with the B3LYP functional. Hydrogen-bonding is the parameter which influences most the IR frequency of OH groups, followed by location of OH groups in concave or convex areas of the surface and then oxygen coordination. The evolution of experimental IR spectra upon evacuation at increasing temperature can be rationalized on the basis of calculated thermal stabilities of each kind of OH groups. A new model is finally proposed to help assign the experimental bands, in terms of hydrogen-bonding, local topology of the hydroxylated sites, and coordination of oxygen.

摘要

通过周期性（VASP）和簇（高斯）密度泛函理论（DFT）模拟计算了氧化镁表面各类羟基的红外O-H伸缩频率。考虑了表面不规则性（单原子和双原子台阶、角、台阶双空位和扭结）来模拟羟基化氧化镁粉末的红外光谱。使用B3LYP泛函，计算频率与实验频率之间取得了良好的对应关系。氢键是对O-H基团红外频率影响最大的参数，其次是O-H基团在表面凹面或凸面区域的位置，然后是氧配位。根据计算出的各类O-H基团的热稳定性，可以合理解释在升高温度下抽空时实验红外光谱的演变。最后提出了一个新模型，以帮助根据氢键、羟基化位点的局部拓扑结构和氧配位来归属实验谱带。

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MgO上羟基的红外光谱表征：周期性和团簇密度泛函理论研究

Infrared characterization of hydroxyl groups on MgO: a periodic and cluster density functional theory study.

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