通过骨架拓扑结构和组成控制沸石对 CO(2)的吸附焓。

Controlling the adsorption enthalpy of CO(2) in zeolites by framework topology and composition.

机构信息

Department of Physical and Macromolecular Chemistry, Faculty of Science, Charles University in Prague, Hlavova 2030, CZ-128 40 Prague 2, Czech Republic.

出版信息

ChemSusChem. 2012 Oct;5(10):2011-22. doi: 10.1002/cssc.201200270. Epub 2012 Aug 10.

DOI:10.1002/cssc.201200270

PMID:22887989

Abstract

Zeolites are often investigated as potential adsorbents for CO(2) adsorption and separation. Depending on the zeolite topology and composition (Si/Al ratio and extra-framework cations), the CO(2) adsorption heats at low coverages vary from -20 to -60 kJ mol(-1), and with increasing surface coverage adsorption heats either stay approximately constant or they quickly drop down. Experimental adsorption heats obtained for purely siliceous porous solids and for ion-exchanged zeolites of the structural type MFI, FER, FAU, LTA, TUN, IMF, and -SVR are discussed in light of results of periodic density functional theory calculations corrected for the description of dispersion interactions. Key factors influencing the stability of CO(2) adsorption complexes are identified and discussed at the molecular level. A general model for CO(2) adsorption in zeolites and related materials is proposed and data reported in literature are evaluated with regard to the proposed model.

摘要

沸石通常被研究作为 CO(2)吸附和分离的潜在吸附剂。根据沸石的拓扑结构和组成（硅/铝比和骨架外阳离子），在低覆盖度下，CO(2)的吸附热从-20 到-60 kJ/mol(-1)不等，随着表面覆盖度的增加，吸附热要么保持大致恒定，要么迅速下降。本文讨论了实验测定的纯硅质多孔固体和结构类型为 MFI、FER、FAU、LTA、TUN、IMF 和 -SVR 的离子交换沸石的 CO(2)吸附热，这些结果是根据周期性密度泛函理论计算结果修正后的色散相互作用描述得到的。在分子水平上确定并讨论了影响 CO(2)吸附配合物稳定性的关键因素。提出了一个用于沸石和相关材料中 CO(2)吸附的通用模型，并根据所提出的模型评估了文献中报道的数据。

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通过骨架拓扑结构和组成控制沸石对 CO(2)的吸附焓。

Controlling the adsorption enthalpy of CO(2) in zeolites by framework topology and composition.

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