田东旭

个人信息Personal Information

副教授

硕士生导师

性别:男

毕业院校:中科院山西煤化所

学位:博士

所在单位:化学学院

学科:物理化学

办公地点:化工综合楼C213

联系方式:tiandx@dlut.edu.cn;13940816371

电子邮箱:tiandx@dlut.edu.cn

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Framework Stability and Bronsted Acidity of Isomorphously Substituted Interlayer-Expanded Zeolite COE-4: A Density Functional Theory Study

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论文类型:期刊论文

发表时间:2014-06-06

发表刊物:CHEMPHYSCHEM

收录刊物:SCIE、PubMed、Scopus

卷号:15

期号:8

页面范围:1700-1707

ISSN号:1439-4235

关键字:Bronsted acidity; density functional calculations; interlayer pore expansion; isomorphously substituted COE-4; lamellar zeolites

摘要:COE-4 zeolites possess a unique two-dimensional ten-ring pore structure with the Si(OH)(2) hydroxyl groups attached to the linker position between the ferrierite-type layers, which has been demonstrated through the interlayer-expansion approach in our previous work (H. Gies et al. Chem. Mater. 2012, 24, 1536). Herein, density functional theory is used to study the framework stability and Bronsted acidity of the zeolite T-COE-4, in which the tetravalent Si is isomorphously substituted by a trivalent Fe, B, Ga, or Al heteroatom at the linker position. The influences of substitution energy and equilibrium geometry parameters on the stability of T-COE-4 are investigated in detail. The relative acid strength of the linker position is revealed by the proton affinity, charge analysis, and NH3 adsorption. It is found that the range of the < T-O-Si > angles is widened to maintain the stability of isomorphously substituted T-COE-4 zeolites. The smaller the < O1-T-O2 > bond angle is, the more difficult is to form the regular tetrahedral unit. Thus, the substitution energies at the linker positions increase in the following sequence: Al-COE-4 < Ga-COE-4 < Fe-COE-4 < B-COE-4. The adsorption of NH3 as a probe molecule indicates that the acidity can affect the hydrogen-bonding interaction between (N-H center dot center dot center dot center dot O2) and (N center dot center dot center dot H- O2). The relative Bronsted-acid strength of the interlayer-expanded T-COE-4 zeolite decreases in the order of Al-COE-4 > Ga-COE-4 > Fe-COE-4 > B-COE-4. These findings may be helpful for the structural design and functional modification of interlayer-expanded zeolites.