Direct oxidation of methanol to formaldehyde by N_2O on [Fe] ~(1+) and [FeO]~(1+) sites in Fe-ZSM-5 zeolite: A density functional theory study

Fellah M.F.

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Direct oxidation of methanol to formaldehyde by N_2O on [Fe] ~(1+) and [FeO]~(1+) sites in Fe-ZSM-5 zeolite: A density functional theory study

机译：N_2O在Fe-ZSM-5沸石的[Fe]〜（1+）和[FeO]〜（1+）位上将甲醇直接氧化成甲醛：密度泛函理论研究

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Density functional theory (DFT) calculations were carried out in a study of the mechanism of direct oxidation of methanol to formaldehyde by N_2O over an extra-framework species in ZSM-5 zeolite represented by a [(SiH _3)_4AlO_4(Fe) or (FeO)] cluster models. The major difference between these two sites is that in the case of the [Fe]~(1+) site, a reaction is present that leads to the formation of the thermodynamically highly stable grafted OH and methoxy (OCH3) species. Moreover, the vibrational frequencies for grafted species on the surface match well with the experimental values. The theoretical calculations achieved in this study obviously show that [Fe-O]~(1+) site in Fe-ZSM-5 catalyst has a significant role on the catalytic oxidation of methanol to formaldehyde by N_2O.

机译：在以[[SiH _3] _4AlO_4（Fe）或（[ FeO）]集群模型。这两个位点之间的主要区别在于，在[Fe]〜（1+）位点的情况下，存在反应，该反应导致形成热力学上高度稳定的接枝OH和甲氧基（OCH3）物种。此外，表面嫁接物种的振动频率与实验值非常吻合。这项研究的理论计算结果显然表明，Fe-ZSM-5催化剂中的[Fe-O]〜（1+）位点对N_2O催化甲醇氧化为甲醛具有重要作用。

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《Journal of Catalysis》 |2011年第1期|共10页
作者
Fellah M.F.;
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正文语种 eng
中图分类催化;
关键词
DFT; Fe-ZSM-5; Formaldehyde; Iron site; Methanol oxidation; MFI; N_2O;

机译：DFT;Fe-ZSM-5;甲醛;铁部位;甲醇氧化;MFI;N_2O;

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1. Direct oxidation of methanol to formaldehyde by N_2O on [Fe] ~(1+) and [FeO]~(1+) sites in Fe-ZSM-5 zeolite: A density functional theory study [J] . Fellah M.F. Journal of Catalysis . 2011,第1期

机译：N_2O在Fe-ZSM-5沸石的[Fe]〜（1+）和[FeO]〜（1+）位上将甲醇直接氧化成甲醛：密度泛函理论研究
2. Insights into adsorption performances and direct decomposition mechanisms of NO on [FeO]~(1+) -ZSM-5: A density functional theory study [J] . Shi Sheng, Li Miaoting, Ge Chao, Applied Surface Science . 2020,第Apra1期

机译：深入研究NO在[FeO]〜（1+）-ZSM-5上的吸附性能及直接分解机理：密度泛函理论研究
3. Understanding the Dual Active Sites of the FeO/Pt(111) Interface and Reaction Kinetics: Density Functional Theory Study on Methanol Oxidation to Formaldehyde [J] . Chen Zongjia, Mao Yu, Chen Jianfu, ACS catalysis . 2017,第7期

机译：了解FeO / Pt（111）界面和反应动力学的双活性位点：密度函数理论研究甲醇氧化对甲醛
4. STRUCTURE AND ENERGETICS OF NITROUS OXIDE AND METHANE ADSORPTION ON THE FE-ZSM-5 ZEOLITE: ONIOM AND DENSITY FUNCTIONAL STUDIES [C] . Pabchanda, S., Pantu, International Zeolite Conference pt.B; 20040425-30; Cape Town(ZA) . 2004

机译：Fe-ZSM-5分子筛上一氧化二氮和甲烷吸附的结构和能级：本体和密度泛函研究
5. Preparation of cyclohexenones from acyclic (pentadienyl)iron(1+) cations: Synthesis of carvone metabolites and synthetic studies directed toward dihydrotachysterols. [D] . Manful, Charles Felix. 2013

机译：由无环（戊二烯基）铁（1+）阳离子制备环己酮：香芹酮代谢物的合成和针对二氢速甾醇的合成研究。
6. Site‐Specific Oxidation State Assignments of the Iron Atoms in the 4Fe:4S2+/1+/0 States of the Nitrogenase Fe‐Protein [O] . Belinda B. Wenke, Dr. Thomas Spatzal, Prof. Douglas C. Rees -1

机译：固氮酶蛋白的4Fe：4S 2 + / 1 + / 0状态下铁原子的位点特定氧化态分配
7. Understanding the Dual Active Sites of the FeO/Pt(111) Interface and Reaction Kinetics: Density Functional Theory Study on Methanol Oxidation to Formaldehyde [O] . Zongjia Chen, Yu Mao, Jianfu Chen, 2017

机译：了解Feo / Pt（111）界面和反应动力学的双活性部位：密度函数理论研究甲醇氧化对甲醛

Direct oxidation of methanol to formaldehyde by N_2O on [Fe] ~(1+) and [FeO]~(1+) sites in Fe-ZSM-5 zeolite: A density functional theory study

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