Catalytic activity and selectivity of methylbenzenes in HSAPO-34 catalyst for the methanol-to-olefins conversion from first principles

机译：从第一原理出发，HSAPO-34催化剂中甲苯对甲醇制烯烃的催化活性和选择性

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As an attractive alternative to produce light olefins, methanol-to-olefins (MTO) conversion catalyzed by zeolites or zeotype materials was recently proposed to follow a hydrocarbon pool mechanism. In this contribution, the effect of the structure of methylbenzenes (MBs) in the pore of HSAPO-34 catalyst on the MTO activity and selectivity is investigated by first-principle calculations and kinetic simulations. We demonstrate that MBs with five or six methyl groups are not more active than those with fewer methyl groups. Propene is intrinsically more favorable than ethene when the reaction is not diffusion limited based on the sidechain hydrocarbon pool mechanism. Our theoretical results are consistent with some experimental observations and can be rationalized based on the shape selectivity of key reaction intermediates and transition states in the pore of catalyst.

机译：作为生产轻质烯烃的一种有吸引力的替代方法，最近提出了由沸石或沸石型材料催化的甲醇制烯烃（MTO）转化遵循烃池机制。在这一贡献中，通过第一性原理计算和动力学模拟研究了HSAPO-34催化剂孔中甲基苯（MBs）结构对MTO活性和选择性的影响。我们证明了具有五个或六个甲基的MB并不比具有较少的甲基的MB具有更高的活性。当反应不受基于侧链烃池机制的扩散限制时，丙烯本质上比乙烯更有利。我们的理论结果与一些实验观察结果一致，并且可以基于关键反应中间体的形状选择性和催化剂孔隙中的过渡态而合理化。

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《ICMSI;International conference of molecular simulations and applied informatics technologies》|2010年|p.159-164|共6页
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Chuan-Ming Wang; Yang-Dong Wang; Hong-Xing Liu; Zai-Ku Xie; Zhi-Pan Liu;
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中图分类工程材料一般性问题;工程材料一般性问题;
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Methanol-to-olefins conversion; HSAPO-34 catalyst; Methylbenzenes; Zeolite; Density functional theory calculations;

机译：甲醇制烯烃; HSAPO-34催化剂;甲基苯;沸石;密度泛函理论计算;

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1. Catalytic activity and selectivity of methylbenzenes in HSAPO-34 catalyst for the methanol-to-olefins conversion from first principles [J] . Wang C.-M., Wang Y.-D., Liu H.-X., Journal of Catalysis . 2010,第2期

机译：从第一原理出发，HSAPO-34催化剂中甲苯对甲醇制烯烃的催化活性和选择性
2. Insights into the reaction mechanism of methanol-to-olefins conversion in HSAPO-34 from first principles: Are olefins themselves the dominating hydrocarbon pool species? [J] . Wang C.-M., Wang Y.-D., Xie Z.-K. Journal of Catalysis . 2013,第Null期

机译：从第一原理出发，了解HSAPO-34中甲醇转化为烯烃的反应机理：烯烃本身是主要的烃库物种吗？
3. Isotopic tracer studies of methanol-to-olefins conversion over HSAPO-34: The role of the olefins-based catalytic cycle [J] . Hwang Andrew, Prieto-Centurion Dario, Bhan Aditya Journal of Catalysis . 2016,第Null期

机译：HSAPO-34上的甲醇制烯烃转化反应的同位素示踪研究：基于烯烃的催化循环的作用
4. Catalytic activity and selectivity of methylbenzenes in HSAPO-34 catalyst for the methanol-to-olefins conversion from first principles [C] . Chuan-Ming Wang, Yang-Dong Wang, Hong-Xing Liu, International conference of molecular simulations and applied informatics technologies . 2010

机译：HSAPO-34催化剂中甲基苯催化活性和选择性从第一原理甲醇 - 烯烃转化中的甲醇 - 34催化剂
5. Density Functional Theory Studies on the Structural Evolution and Catalytic Reactivity of Molybdenum-Based Catalysts for Methane Conversion [D] . Zhang, Tianyu . 2019

机译：密度泛函理论研究钼基钼催化剂结构演化与催化反应性研究
6. Annealing Strategies for the Improvement of Low-TemperatureNH3-Selective Catalytic Reduction Activity of CrMnOx Catalysts [O] . Yanke Zhang, Wan Li, Liam John France, 2019

机译：改善低温的退火策略CrMnOx催化剂的NH3-选择性催化还原活性
7. Isotopic tracer studies of methanol-to-olefins conversion over HSAPO-34: The role of the olefins-based catalytic cycle [O] . Andrew Hwang, Dario Prieto-Centurion, Aditya Bhan 2016

机译：在Hsapo-34上对甲醇 - 烯烃转化的同位素示踪剂研究：基于烯烃的催化循环的作用
8. Shape-Selective Catalysts for Fischer-Tropsch Chemistry: Atomic Layer Deposition of Active Catalytic Metals. Activity Report: January 1, 2005 September 30, 2005 [R] . Cronauer, D. C. 2011

机译：Fischer-Tropsch化学形状选择性催化剂：活性催化金属的原子层沉积。活动报告：2005年1月1日，2005年9月30日

Catalytic activity and selectivity of methylbenzenes in HSAPO-34 catalyst for the methanol-to-olefins conversion from first principles

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