Molecular-level understanding of WGS and reverse WGS reactions on Rh through hierarchical multiscale approach

Maestri M.; Reuter K.

首页> 外文期刊>Chemical Engineering Science >Molecular-level understanding of WGS and reverse WGS reactions on Rh through hierarchical multiscale approach

【24h】

Molecular-level understanding of WGS and reverse WGS reactions on Rh through hierarchical multiscale approach

机译：通过分级多尺度方法对WGS和Rh上WGS逆反应的分子水平理解

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Hierarchically combining semi-empirical methods and first-principles calculations we gain a novel and noteworthy picture of the molecular-level mechanisms that govern the water-gas-shift (WGS) and reverse water-gas-shift (r-WGS) reactions on Rh catalysts. Central to this picture is that the WGS and r-WGS follow two different dominant reaction mechanisms: WGS proceeds according to a carboxyl (COOH) mechanism, whereas r-WGS proceeds according to a redox (CO _2→CO+O) mechanism. The obtained results furthermore underscore the danger of common first-principles analyses that focus on a priori selected dominant paths. Not restricted to such bias, our herein proposed hierarchical approach thus constitutes a promising avenue to properly transport and incorporate the ab initio predictive-quality to a new level of system complexity.

机译：分层结合半经验方法和第一性原理计算，我们获得了一个新颖且值得注意的分子图谱，该分子图谱控制Rh上的水煤气变换（WGS）和水煤气变换（r-WGS）反应的分子水平机制催化剂。此图片的中心是，WGS和r-WGS遵循两种不同的主导反应机制：WGS根据羧基（COOH）机制进行，而r-WGS根据氧化还原（CO _2→CO + O）机制进行。获得的结果进一步强调了集中在先验选择的主导路径上的通用第一原理分析的危险。不限于这种偏见，我们在此提出的分层方法因此构成了一种有希望的途径，可以正确地传输并从头开始将预测质量合并到系统复杂性的新水平。

著录项

来源
《Chemical Engineering Science》 |2012年第null期|共4页
作者
Maestri M.; Reuter K.;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
First-principles calculations; Multiscale modeling; Reaction mechanism; Reverse water-gas-shift reaction; Rh; Water-gas-shift reaction;

机译：第一性原理计算;多尺度建模;反应机理;逆水煤气反应;Rh;水煤气反应;

相似文献

外文文献
中文文献
专利

1. Molecular-level understanding of WGS and reverse WGS reactions on Rh through hierarchical multiscale approach [J] . Maestri M., Reuter K. Chemical Engineering Science . 2012,第Null期

机译：通过分级多尺度方法对WGS和Rh上WGS逆反应的分子水平理解
2. Gold based catalysts on ceria and ceria-alumina for WGS reaction (WGS Gold catalysts) [J] . Donka Andreeva, Ivan Ivanov, Lyuba Ilieva, Topics in Catalysis . 2007,第1a2期

机译：用于WGS反应的二氧化铈和二氧化铈-氧化铝上的金基催化剂（WGS金催化剂）
3. Cycles Across an Equilibrium: A Kinetic Investigation of the Reverse and Forward WGS Reaction over a 2% Pt/CeO2 Catalyst (Experimental Data and Qualitative Interpretation) [J] . Yablonsky GS, Pilasombat R, Breen JP, Chemical Engineering Science . 2010,第7期

机译：平衡过程中的循环：在2％Pt / CeO2催化剂上进行反向和正向WGS反应的动力学研究（实验数据和定性解释）
4. WGS-mixture Separation and WGS Reaction Test in a Benchscale Multi-tubular Membrane Reactor [C] . H. Li, J.W. Dijkstra, J.A.Z Pieterse, GHGT-10 . 2011

机译：WGS-混合物分离和WGS反应试验在Benchscale多管状膜反应器中
5. A study of the catalytic properties of ceria-based materials in the WGS reaction and hydrocarbon oxidations. [D] . Zhao, Sufang. 2005

机译：二氧化铈基材料在WGS反应和烃氧化中的催化性能研究。
6. Transmission Network of Deer-Borne Mycobacterium bovis Infection Revealed by a WGS Approach [O] . Lorraine Michelet, Cyril Conde, Maxime Branger, 2019

机译：WGS方法揭示了牛鹿分枝杆菌感染的传播网络
7. Molecular-level understanding of the WGS and reverse WGS reactions on Rh through hierarchical multiscale approach [O] . Maestri, Matteo, Reuter, Karsten 2012

机译：对WGs的分子水平理解和对Rh的反向WGs反应通过分层多尺度方法
8. Flame Synthesis of Nanosized Cu-Ce-O, Ni-Ce-O, and Fe-Ce-O Catalysts for the Water-Gas Shift (WGS) Reaction [R] . Pati, R. K., Lee, I. C., Hou, S., 2009

机译：用于水煤气变换（WGs）反应的纳米Cu-Ce-O，Ni-Ce-O和Fe-Ce-O催化剂的火焰合成

Molecular-level understanding of WGS and reverse WGS reactions on Rh through hierarchical multiscale approach

摘要

著录项

相似文献

相关主题

期刊订阅