State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, Wuhan Center for Magnetic Resonance, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Wuhan 430071, China.
Solid State Nucl Magn Reson. 2013 Oct-Nov;55-56:12-27. doi: 10.1016/j.ssnmr.2013.09.001. Epub 2013 Sep 20.
Characterization of the surface acidic properties of solid acid catalysts is a key issue in heterogeneous catalysis. Important acid features of solid acids, such as their type (Brønsted vs. Lewis acid), distribution and accessibility (internal vs. external sites), concentration (amount), and strength of acid sites are crucial factors dictating their reactivity and selectivity. This short review provides information on different solid-state NMR techniques used for acidity characterization of solid acid catalysts. In particular, different approaches using probe molecules containing a specific nucleus of interest, such as pyridine-d5, 2-(13)C-acetone, trimethylphosphine, and trimethylphosphine oxide, are compared. Incorporation of valuable information (such as the adsorption structure, deprotonation energy, and NMR parameters) from density functional theory (DFT) calculations can yield explicit correlations between the chemical shift of adsorbed probe molecules and the intrinsic acid strength of solid acids. Methods that combine experimental NMR data with DFT calculations can therefore provide both qualitative and quantitative information on acid sites.
固体酸催化剂表面酸性的表征是多相催化中的一个关键问题。固体酸的重要酸性特征,如酸的类型(Brønsted 酸与 Lewis 酸)、分布和可及性(内孔与外孔)、浓度(量)和酸位强度,是决定其反应性和选择性的关键因素。这篇简短的综述提供了有关用于固体酸催化剂酸度表征的不同固态 NMR 技术的信息。特别是,使用含有特定感兴趣核的探针分子(如吡啶-d5、2-(13)C-丙酮、三甲基膦和三甲基氧化膦)的不同方法进行了比较。从密度泛函理论(DFT)计算中纳入有价值的信息(如吸附结构、去质子化能和 NMR 参数)可以在吸附探针分子的化学位移与固体酸的固有酸强度之间产生明确的相关性。因此,将实验 NMR 数据与 DFT 计算相结合的方法可以为酸位提供定性和定量信息。
