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Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: a DFT approach

机译：深入了解Cu（I）氧化物催化将CO2转化为燃料和化学物质的机理：DFT方法

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Periodic, self-consistent, density functional theory calculations with corrections via a Hubbard U parameter, and inclusion of dispersive forces (DFT-D2), have been employed to study CO2 activation and conversion on the Cu2O (1 1 1) surface. CO2 hydrogenation on the Cu2O (1 1 1) surface was investigated systematically, and the respective microscopic reaction mechanisms were elucidated. We show that, whereas CO2 dissociation is not energetically allowed on the Cu2O (1 1 1) surface, CO2 hydrogenation to a formate intermediate is more favourable than the formation of a carboxyl intermediate. Further hydrogenation from formate to formic acid is energetically allowed, where formate combines with strongly adsorbed surface hydrogen to form bidentate formic acid moieties. Formation of both the formate and the formic acid from adsorbed CO2 and surface hydrogen are exothermic reactions

机译：周期性的，自洽的，密度泛函理论计算以及通过Hubbard U参数进行的校正以及包括分散力（DFT-D2）的研究已用于研究CO2在Cu2O（1 1 1）表面的活化和转化。系统地研究了Cu2O（1 1 1）表面的CO2加氢反应，并阐明了各自的微观反应机理。我们表明，虽然在Cu2O（1 1 1）表面上不允许大力分解CO2，但将CO2加氢成甲酸中间体比形成羧基中间体更有利。大力地允许从甲酸进一步氢化成甲酸，其中甲酸与强吸附的表面氢结合形成二齿甲酸部分。由吸附的二氧化碳和表面氢形成的甲酸和甲酸都是放热反应

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Mishra, Abhishek Kumar; de Leeuw, Nora H.;
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年度 2016
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专利

1. Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach [J] . Mishra Abhishek Kumar, de Leeuw Nora H. Journal of CO2 Utilization . 2016,第Null期

机译：深入了解Cu（I）氧化物催化将CO2转化为燃料和化学物质的机理：DFT方法
2. Mechanistic Insights into Selective CO2 Conversion via RWGS on Transition Metal Phosphides: A DFT Study [J] . Guharoy Utsab, Reina Tomas Ramirez, Gu Sai, The journal of physical chemistry, C. Nanomaterials and interfaces . 2019,第37期

机译：通过RWG在过渡金属磷化物上的选择性CO2转化机械洞察：DFT研究
3. Chemical and electrochemical hydrogenation of CO2 to hydrocarbons on Cu single crystal surfaces: insights into the mechanism and selectivity from DFT calculations [J] . Ou Lihui RSC Advances . 2015,第71期

机译：Cu 2晶体表面二氧化碳至烃的化学和电化学氢化：DFT计算中的机制和选择性见解
4. Identification of Possible Mechanistic Pathways during the Electrochemical Reduction of CO2: Results from Constant Potential DFT Calculations [C] . Jason D. Goodpaster, Martin Head-Gordon, Alexis T. Bell AIChE Annual Meeting . 2016

机译：在CO 2的电化学减少期间识别可能的机械途径：恒定潜在的DFT计算结果
5. Mechanistic Insights into the Electrochemical CO2 Reduction Reaction Using Surface Enhanced Infrared Spectroscopy [D] . Malkani, Arnav S. 2021

机译：使用表面增强的红外光谱法进入电化学二氧化碳还原反应的机械洞察
6. Exploring Colorimetric Real-Time Sensing Behaviorof a Newly Designed CT Complex toward Nitrobenzene and Co2+: Spectrophotometric DFT/TD-DFT and Mechanistic Insights [O] . Ishaat M. Khan, *, Sonam Shakya 2019

机译：探索比色实时传感行为设计的针对硝基苯和Co2 +的CT络合物的制备：分光光度法DFT / TD-DFT和机理分析
7. Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach [O] . Mishra Abhishek Kumar, de Leeuw Nora H. 2016

机译：深入了解Cu（I）氧化物催化CO2转化为燃料和化学品的机理：DFT方法
8. Design, Synthesis, and Mechanistic Evaluation of Iron-Based Catalysis for Synthesis Gas Conversion to Fuels and Chemicals [R] . 2007

机译：用于合成气转化为燃料和化学品的铁基催化剂的设计，合成和机理评价

Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: a DFT approach

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