Second-Sphere Effects on Methane Hydroxylation in Cu-Zeolites

BenjaminE. R. Snyder; Pieter Vanelderen; Robert A. Schoonheydt; Bert F. Sels; Edward I. Solomon

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Second-Sphere Effects on Methane Hydroxylation in Cu-Zeolites

机译：第二球对铜沸石分子筛中甲烷羟化的影响

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Two [Cu_(2)O]~(2+) cores have been identified as the active sites of low temperature methane hydroxylation in the zeolite Cu-MOR. These cores have similar geometric and electronic structures, yet different reactivity with CH_(4): one reacts with a much lower activation enthalpy. In the present study, we couple experimental reactivity and spectroscopy studies to DFT calculations to arrive at structural models of the Cu-MOR active sites. We find that the more reactive core is located in a constricted region of the zeolite lattice. This leads to close van der Waals contact between the substrate and the zeolite lattice in the vicinity of the active site. The resulting enthalpy of substrate adsorption drives the subsequent H atom abstraction step—a manifestation of the “nest” effect seen in hydrocarbon cracking on acid zeolites. This defines a mechanism to tune the reactivity of metal active sites in microporous materials.

机译：两个[Cu_（2）O]〜（2+）核心已被确定为沸石Cu-MOR中低温甲烷羟基化的活性位点。这些核具有相似的几何和电子结构，但与CH_（4）的反应性不同：一个核的活化焓低得多。在本研究中，我们将实验反应性和光谱学研究与DFT计算相结合，以得出Cu-MOR活性位点的结构模型。我们发现，反应性更高的核位于沸石晶格的收缩区域中。这导致在活性位点附近的基材和沸石晶格之间的范德华紧密接触。所产生的底物吸附焓驱动随后的H原子提取步骤-这是烃裂解对酸性沸石的“巢”效应的体现。这定义了调节微孔材料中金属活性位的反应性的机制。

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《Journal of the American Chemical Society》 |2018年第29期|9236-9243|共8页
作者
BenjaminE. R. Snyder; Pieter Vanelderen; Robert A. Schoonheydt; Bert F. Sels; Edward I. Solomon;
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作者单位

Department of Chemistry, Stanford University;

Department of Chemistry, Stanford University,Department of Microbial and Molecular Systems, Centre for Surface Chemistry and Catalysis, KU Leuven − University of Leuven;

Department of Microbial and Molecular Systems, Centre for Surface Chemistry and Catalysis, KU Leuven − University of Leuven;

Department of Microbial and Molecular Systems, Centre for Surface Chemistry and Catalysis, KU Leuven − University of Leuven;

Department of Chemistry, Stanford University;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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专利

1. DFT study of the mechanism for methane hydroxylation by soluble methane monooxygenase (sMMO): Effects of oxidation state, spin state, and coordination number [J] . Huang S.-P., Shiota Y., Yoshizawa K. Dalton transactions: An international journal of inorganic chemistry . 2013,第4期

机译：DFT研究可溶性甲烷单加氧酶（sMMO）甲烷羟化的机理：氧化态，自旋态和配位数的影响
2. Catalytic Conversion of Methane to Methanol Using Cu-Zeolites [J] . Evalyn Mae C. Alayon, Maarten Nachtegaal, Marco Ranocchiari, Chimia . 2012,第9期

机译：铜沸石催化甲烷甲烷转化为甲醇
3. Cage effects control the mechanism of methane hydroxylation in zeolites [J] . Snyder Benjamin E. R., Bols Max L., Rhoda Hannah M., Science . 2021,第6552期

机译：笼效应控制沸石中甲烷羟基化机制
4. Methane to Methanol Conversion over Cu-Zeolites [C] . Elisa Borfecchia, Dimitrios K. Pappas, Michael M. Dyballa Natural Gas Conversion Symposium . 2019

机译：甲烷以甲醇转化在Cu-沸石上
5. Toward a catalytic system cycle for the hydroxylation of methane: Oxy-functionalization of electron rich M-methane bonds [D] . Conley, Brian Lee 2008

机译：迈向甲烷羟基化的催化系统循环：富电子的M-甲烷键的氧化官能化
6. Insights into Second-Sphere Effects on Redox PotentialsSpectroscopic Properties and Superoxide Dismutase Activity of ManganeseComplexes with Schiff-Base Ligands [O] . Claudia Palopoli, Joaquín Ferreyra, Amandine Conte-Daban, 2019

机译：洞察第二球对氧化还原电位的影响锰的光谱性质和超氧化物歧化酶活性席夫碱配体的配合物
7. Second-Sphere Effects on Methane Hydroxylation in Cu-Zeolites [O] . Benjamin E. R. Snyder, Pieter Vanelderen, Robert A. Schoonheydt, 2018

机译：Cu-沸石甲烷羟基化的第二球体

Second-Sphere Effects on Methane Hydroxylation in Cu-Zeolites

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