DFT study of formaldehyde and methanol synthesis from CO and H-2 on Ni(111)

Remediakis IN; Abild-Pedersen F; Norskov JK

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DFT study of formaldehyde and methanol synthesis from CO and H-2 on Ni(111)

机译：Ni（111）上由CO和H-2合成甲醛和甲醇的DFT研究

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We present a density-functional-theory study of formaldehyde and methanol synthesis from CO and H-2 on a Ni catalyst. We investigate the intermediate products of the reaction and calculate the reaction enthalpy and energy barrier for each elementary reaction, taking into account several different adsorption geometries and the presence of isomers of the intermediate products. Hydrogenation of CO is favored over desorption or dissociation of CO on flat Ni(111), to form the formyl radical (HCO) or its isomer, COH. Subsequent hydrogenation leads to formaldehyde (CH2O), Methoxy (CH3O), and, finally, methanol (CH3OH). The overall reaction barrier for formaldehyde and methanol formation is 2.0 eV.

机译：我们提出了在镍催化剂上由CO和H-2合成甲醛和甲醇的密度泛函理论研究。我们研究了反应的中间产物，并考虑了几种不同的吸附几何形状和中间产物异构体的存在，计算了每个基本反应的反应焓和能垒。 CO的氢化作用优于在平面Ni（111）上将CO解吸或解离以形成甲酰基（HCO）或其异构体COH。随后的氢化反应生成甲醛（CH2O），甲氧基（CH3O），最后生成甲醇（CH3OH）。甲醛和甲醇形成的总反应势垒为2.0 eV。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |2004年第38期|共6页
作者
Remediakis IN; Abild-Pedersen F; Norskov JK;
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正文语种 eng
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SINGLE-CRYSTAL SURFACES; DISSOCIATIVE ADSORPTION; DECOMPOSITION; CATALYSTS; HYDROGEN; GAS; PALLADIUM; KINETICS; CU(100); PT(111);

机译：单晶表面;分离吸附;分解;催化剂;氢;气体;钯;动力学;CU（100）;PT（111）;

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1. DFT study of formaldehyde and methanol synthesis from CO and H-2 on Ni(111) [J] . Remediakis IN, Abild-Pedersen F, Norskov JK The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2004,第38期

机译：Ni（111）上由CO和H-2合成甲醛和甲醇的DFT研究
2. On the Adsorption of Formaldehyde and Methanol on a Water-Covered Pt(111): a DFT-D Study [J] . Piotr Blonski, Nuria Lopez The journal of physical chemistry, C. Nanomaterials and interfaces . 2012,第29期

机译：水覆盖的Pt（111）上甲醛和甲醇的吸附：DFT-D研究
3. On the Adsorption of Formaldehyde and Methanol on a Water-Covered Pt(111): a DFT-D Study [J] . Piotr Blonski, Nuria Lopez The journal of physical chemistry, C. Nanomaterials and interfaces . 2012,第29期

机译：水覆盖的Pt（111）上甲醛和甲醇的吸附：DFT-D研究
4. The study of CO_2 / CH_4 reforming on Ni(111) and Ni(111) surfaces by DFT method [C] . Hongxia Fan, Xiaohong Li, Yunpeng Guo, Thirty-First annual International Pittsburgh Coal Conference . 2014

机译：DFT法研究Ni（111）和Ni（111）表面的CO_2 / CH_4重整
5. THE KINETICS AND MATHEMATICAL MODEL OF THE DEACTIVATION OF FERRIC-MOLYBDATE CATALYSTS (REACTOR MODELLING, FORMALDEHYDE SYNTHESIS, METHANOL OXIDATION). [D] . KMIOTEK, STEPHEN JAMES. 1986

机译：钼酸铁催化剂失活的动力学和数学模型（反应器模型，甲醛合成，甲醇氧化）。
6. Mechanism of Reactions of 1-Substituted Silatranes and Germatranes 22-Disubstituted Silocanes and Germocanes 111-Trisubstituted Hyposilatranes and Hypogermatranes with Alcohols (Methanol Ethanol): DFT Study [O] . Denis Chachkov, Rezeda Ismagilova, Yana Vereshchagina 2020

机译：1-取代的硅氧杂环丁烷和Germatranes22-二取代的Silocanes和Germocanes111-三取代的Hyposilatranes和Hygergermatranes与酒精（甲醇乙醇）的反应机理：DFT研究
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

DFT study of formaldehyde and methanol synthesis from CO and H-2 on Ni(111)

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