Mechanism of Carbon Monoxide Dissociation on a Cobalt Fischer–Tropsch Catalyst

机译：钴费-托催化剂上一氧化碳的离解机理

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The way in which the triple bond in CO dissociates, a key reaction step in the Fischer–Tropsch (FT) reaction, is a subject of intense debate. Direct CO dissociation on a Co catalyst was probed by ¹²C¹⁶O/¹³C¹⁸O scrambling in the absence and presence of H2. The initial scrambling rate without H2 was significantly higher than the rate of CO consumption under CO hydrogenation conditions, which indicated that the surface contained sites sufficiently reactive to dissociate CO without the assistance of H atoms. Only a small fraction of the surface was involved in CO scrambling. The minor influence of CO scrambling and CO residence time on the partial pressure of H2 showed that CO dissociation was not affected by the presence of H2. The positive H2 reaction order was correlated to the fact that the hydrogenation of adsorbed C and O atoms was slower than CO dissociation. Temperature‐programmed in situ IR spectroscopy underpinned the conclusion that CO dissociation does not require H atoms.

机译：CO的三键解离的方式是费托反应（FT）反应的关键反应步骤，这引起了激烈的争论。通过在催化剂中加扰^{12 C ^{16 O / ^{13 C ^{18 O探测Co催化剂上的直接CO解离。氢气的存在与否。没有H2时的初始加扰速率显着高于在CO加氢条件下的CO消耗速率，这表明表面含有足够活泼的位点，可以在不借助H原子的情况下解离CO。仅一小部分表面参与了CO加扰。 CO加扰和CO停留时间对H2的分压的影响较小，表明CO的解离不受H2的存在的影响。 H2反应正序与吸附的C和O原子的氢化作用比CO的解离速度慢有关。温度编程的原位红外光谱证明了CO解离不需要H原子的结论。}}}}

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期刊名称 Wiley-Blackwell Online Open
作者
Wei Chen; Bart Zijlstra; Dr. Ivo A. W. Filot; Dr. Robert Pestman; Prof. Dr. Emiel J. M. Hensen;
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年(卷),期 -1(10),1
年度 -1
页码 136–140
总页数 5
原文格式 PDF
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关键词
Fischer–Tropsch in-situ characterization IR spectroscopy isotopic labeling reaction mechanisms;

机译：费-托法;原位表征;红外光谱;同位素标记;反应机理;

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1. Mechanism of Carbon Monoxide Dissociation on a Cobalt Fischer-Tropsch Catalyst [J] . ChemCatChem . 2018,第1期

机译：一氧化碳解离对钴钴 - 滴水催化剂的机制
2. Catalytic behaviors of mixed TiO_2-SiO_2-supported cobalt Fischer-Tropsch catalysts for carbon monoxide hydrogenation [J] . Bunjerd Jongsomjit, Tipnapa Wongsalee, Piyasan Praserthdam Materials Chemistry and Physics . 2006,第2a3期

机译：TiO_2-SiO_2混合负载的费-托钴催化剂对一氧化碳加氢的催化行为
3. Carbon deposition as a deactivation mechanism of cobalt-based Fischer-Tropsch synthesis catalysts under realistic conditions [J] . D.J. Moodley, J. van de Loosdrecht, A.M. Saib Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2009,第1a2期

机译：在实际条件下碳沉积作为钴基费-托合成催化剂的失活机理
4. Thermal Decomposition and Cobalt Species Transformation of Carbon Nanotubes Supported Cobalt Catalyst for Fischer-Tropsch Synthesis [C] . Zhenhua Li, Suli Bai, Chengdu Huang, AIChE annual meeting . 2011

机译：碳纳米管负载钴催化剂费-托合成的热分解和钴物种转化
5. Nanoscale platinum and iron-cobalt catalysts deposited in microchannel microreactors for use in hydrogenation and dehydrogenation of cyclohexene, selective oxidation of carbon monoxide and Fischer-Tropsch process to higher alkanes. [D] . Zhao, Shihuai. 2003

机译：沉积在微通道微反应器中的纳米级铂和铁钴催化剂，用于环己烯的加氢和脱氢，一氧化碳的选择性氧化和费-托工艺制备成高级烷烃。
6. Confined small-sized cobalt catalysts stimulate carbon-chain growth reversely by modifying ASF law of Fischer–Tropsch synthesis [O] . Qingpeng Cheng, Ye Tian, Shuaishuai Lyu, -1

机译：受限的小型钴催化剂通过修改费-托合成法的ASF规律反向刺激碳链增长
7. Front Cover: Mechanism of Carbon Monoxide Dissociation on a Cobalt Fischer-Tropsch Catalyst (ChemCatChem 1/2018) [O] . Wei Chen, Bart Zijlstra, Ivo A. W. Filot, 2018

机译：前盖：钴钴 - 滴水催化剂上一氧化碳解离机制（Chemcatchem 1/2018）
8. Mechanism of Promotion of Iron Fischer-Tropsch Catalysts: Quarterly Report for the Period Ending September 30, 1986: Applications of Sup(14)C Tracer Techniques to the Study of Reactions Occurring over Iron-Based Fischer-Tropsch Catalysts. [R] . 1986

机译：促进铁费托合成催化剂的机理：1986年9月30日结束时期的季度报告：sup（14）C示踪技术在铁基费 - 托催化剂反应研究中的应用。

Mechanism of Carbon Monoxide Dissociation on a Cobalt Fischer–Tropsch Catalyst

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