IR spectroscopy of small and weakly interacting molecular probes for acidic and basic zeolites

H. Knözinger, S. Huber
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引用次数: 286

Abstract

The application of small and weakly interacting probe molecules for the characterization of acidic and basic properties by FTIR spectroscopy is exemplified by using H- and alkali cation-exchanged zeolites as typical solid Bronsted and Lewis acids and Lewis bases. Criteria for the selection of probe molecules are given. Bronsted acidity can be characterized by the H-bonding method when CO and N2 are used as molecular probes. Quantum chemical calculations are shown to provide important additional information on the electronic nature of the adsorption interaction and the vibrational behaviour of the probe molecule. Lewis acidity dominates in cation-exchanged zeolites for small cations (Li+, Na+) whereas basic properties develop with increasing cation radius. CO, CO2, N2 and CH4 interact with cation centers, the interaction energy decreasing with increasing cation radius. CO at very low equilibrium pressures permits a siting of Na+, and the Al distribution in six-rings (SII-sites) can be probed. CH4 interacts with cations in the M+···H3CH configuration having C3v symmetry. CH-acids such as Cl3CH(D), acetylene and methylacetylene, are shown to be potentially suitable probe molecules for basic properties using the H-bonding method. All three molecules undergo Oz2−···H–C H-bonding and the induced red-shift of the C–H stretching frequency permits a ranking of the base strength of a given series of materials.
酸性和碱性沸石小分子和弱相互作用探针的红外光谱
以H-和碱阳离子交换沸石为典型固体Bronsted酸和Lewis酸及Lewis碱为例,说明了弱相互作用小探针分子在FTIR光谱表征酸性和碱性的应用。给出了探针分子选择的准则。当CO和N2作为分子探针时,可以用氢键法表征Bronsted酸性。量子化学计算被证明提供了吸附相互作用的电子性质和探针分子的振动行为的重要附加信息。小阳离子(Li+, Na+)在阳离子交换沸石中以Lewis酸性为主,而碱性随阳离子半径的增大而增强。CO、CO2、N2和CH4与阳离子中心相互作用,相互作用能随阳离子半径的增大而减小。在非常低的平衡压力下,CO允许Na+的定位,并且可以探测到Al在六环(sii -位)中的分布。CH4与具有C3v对称的M+···H3CH构型的阳离子相互作用。ch -酸如Cl3CH(D),乙炔和甲基乙炔,被证明是潜在的合适的探针分子,使用氢键方法研究基本性质。所有三种分子都经历了Oz2−···H-C氢键,并且引起的C-H拉伸频率的红移允许对给定系列材料的碱强度进行排序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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