Chain growth mechanism in Fischer-Tropsch synthesis: A DFT study of C-C coupling over Ru, Fe, Rh, and Re surfaces

Jun Cheng; P. Hu; Peter Ellis; Sam French; Gordon Kelly; C. Martin Lok

doi:10.1021/jp711051e

Chain growth mechanism in Fischer-Tropsch synthesis: A DFT study of C-C coupling over Ru, Fe, Rh, and Re surfaces

Jun Cheng^*
, P. Hu
, Peter Ellis
, Sam French
, Gordon Kelly
, C. Martin Lok

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

131 Citations (Scopus)

Abstract

A quantitative approach is used to understand the chain growth mechanism in FT synthesis on the Ru, Fe, Rh, and Re surfaces. The C-C coupling reactions are extensively calculated on the stepped metal surfaces. Combining the coupling barriers and reactant stabilities, we investigate the reaction rates of all possible C, + C-1 coupling pathways on the metal surfaces. It is found that (i) all the transition-state structures are similar on these surfaces, while some coupling barriers are very different; (ii) the dominant chain growth pathways on these surfaces are different: C + CH and CH + CH on Rh and Ru surfaces, C + CH3 on Fe surface, and C + CH on Re surface. The common features of the major coupling reactions together with those on the Co surface are also discussed.

Original language	English
Pages (from-to)	6082-6086
Number of pages	5
Journal	The Journal of Physical Chemistry C
Volume	112
Issue number	15
Early online date	20 Mar 2008
DOIs	https://doi.org/10.1021/jp711051e
Publication status	Published - 17 Apr 2008

Keywords

density-functional theory
rate coefficients
catalysts
initiation
RU(0001)
hydrocarbons
propagation
CO(0001)
insight
step

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title = "Chain growth mechanism in Fischer-Tropsch synthesis: A DFT study of C-C coupling over Ru, Fe, Rh, and Re surfaces",

abstract = "A quantitative approach is used to understand the chain growth mechanism in FT synthesis on the Ru, Fe, Rh, and Re surfaces. The C-C coupling reactions are extensively calculated on the stepped metal surfaces. Combining the coupling barriers and reactant stabilities, we investigate the reaction rates of all possible C, + C-1 coupling pathways on the metal surfaces. It is found that (i) all the transition-state structures are similar on these surfaces, while some coupling barriers are very different; (ii) the dominant chain growth pathways on these surfaces are different: C + CH and CH + CH on Rh and Ru surfaces, C + CH3 on Fe surface, and C + CH on Re surface. The common features of the major coupling reactions together with those on the Co surface are also discussed.",

keywords = "density-functional theory, rate coefficients, catalysts, initiation, RU(0001), hydrocarbons, propagation, CO(0001), insight, step",

author = "Jun Cheng and P. Hu and Peter Ellis and Sam French and Gordon Kelly and Lok, \{C. Martin\}",

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doi = "10.1021/jp711051e",

language = "English",

volume = "112",

pages = "6082--6086",

journal = "The Journal of Physical Chemistry C",

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TY - JOUR

T1 - Chain growth mechanism in Fischer-Tropsch synthesis

T2 - A DFT study of C-C coupling over Ru, Fe, Rh, and Re surfaces

AU - Cheng, Jun

AU - Hu, P.

AU - Ellis, Peter

AU - French, Sam

AU - Kelly, Gordon

AU - Lok, C. Martin

PY - 2008/4/17

Y1 - 2008/4/17

N2 - A quantitative approach is used to understand the chain growth mechanism in FT synthesis on the Ru, Fe, Rh, and Re surfaces. The C-C coupling reactions are extensively calculated on the stepped metal surfaces. Combining the coupling barriers and reactant stabilities, we investigate the reaction rates of all possible C, + C-1 coupling pathways on the metal surfaces. It is found that (i) all the transition-state structures are similar on these surfaces, while some coupling barriers are very different; (ii) the dominant chain growth pathways on these surfaces are different: C + CH and CH + CH on Rh and Ru surfaces, C + CH3 on Fe surface, and C + CH on Re surface. The common features of the major coupling reactions together with those on the Co surface are also discussed.

AB - A quantitative approach is used to understand the chain growth mechanism in FT synthesis on the Ru, Fe, Rh, and Re surfaces. The C-C coupling reactions are extensively calculated on the stepped metal surfaces. Combining the coupling barriers and reactant stabilities, we investigate the reaction rates of all possible C, + C-1 coupling pathways on the metal surfaces. It is found that (i) all the transition-state structures are similar on these surfaces, while some coupling barriers are very different; (ii) the dominant chain growth pathways on these surfaces are different: C + CH and CH + CH on Rh and Ru surfaces, C + CH3 on Fe surface, and C + CH on Re surface. The common features of the major coupling reactions together with those on the Co surface are also discussed.

KW - density-functional theory

KW - rate coefficients

KW - catalysts

KW - initiation

KW - RU(0001)

KW - hydrocarbons

KW - propagation

KW - CO(0001)

KW - insight

KW - step

U2 - 10.1021/jp711051e

DO - 10.1021/jp711051e

M3 - Article

SN - 1932-7447

VL - 112

SP - 6082

EP - 6086

JO - The Journal of Physical Chemistry C

JF - The Journal of Physical Chemistry C

IS - 15

ER -

Chain growth mechanism in Fischer-Tropsch synthesis: A DFT study of C-C coupling over Ru, Fe, Rh, and Re surfaces

Abstract

Keywords

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