Development of novel catalysts for Fischer–Tropsch synthesis: tuning the product selectivity
Q Zhang, J Kang, Y Wang - ChemCatChem, 2010 - Wiley Online Library
Fischer–Tropsch synthesis is a heterogeneous catalytic process for the production of clean
hydrocarbon fuels or chemicals from synthesis gas (CO+ H2), which can be derived from …
hydrocarbon fuels or chemicals from synthesis gas (CO+ H2), which can be derived from …
Reactivity theory of transition-metal surfaces: a Brønsted− Evans− Polanyi linear activation energy− free-energy analysis
RA Van Santen, M Neurock, SG Shetty - Chemical reviews, 2009 - ACS Publications
The exponential increase in computational processor speed, the development of novel
computational architectures, together with the tremendous advances in ab initio theoretical …
computational architectures, together with the tremendous advances in ab initio theoretical …
Advances in catalysis for syngas conversion to hydrocarbons
Syngas, a mixture of CO and H 2 (CO/H 2), is a key platform for the utilization of
nonpetroleum carbon resources such as natural gas or shale gas and coal. Syngas can also …
nonpetroleum carbon resources such as natural gas or shale gas and coal. Syngas can also …
On the origin of the cobalt particle size effects in Fischer− Tropsch catalysis
JP Den Breejen, PB Radstake… - Journal of the …, 2009 - ACS Publications
The effects of metal particle size in catalysis are of prime scientific and industrial importance
and call for a better understanding. In this paper the origin of the cobalt particle size effects …
and call for a better understanding. In this paper the origin of the cobalt particle size effects …
The optimally performing Fischer–Tropsch catalyst
IAW Filot, RA Van Santen… - Angewandte Chemie …, 2014 - Wiley Online Library
Microkinetics simulations are presented based on DFT‐determined elementary reaction
steps of the Fischer–Tropsch (FT) reaction. The formation of long‐chain hydrocarbons …
steps of the Fischer–Tropsch (FT) reaction. The formation of long‐chain hydrocarbons …
Mechanism and microkinetics of the Fischer–Tropsch reaction
The increasing availability of quantum-chemical data on surface reaction intermediates
invites one to revisit unresolved mechanistic issues in heterogeneous catalysis. One such …
invites one to revisit unresolved mechanistic issues in heterogeneous catalysis. One such …
Activity and coke formation of nickel and nickel carbide in dry reforming: a deactivation scheme from density functional theory
Dry reforming is a promising reaction to utilise the greenhouse gases CO 2 and CH 4. Nickel-
based catalysts are the most popular catalysts for the reaction, and the coke formation on the …
based catalysts are the most popular catalysts for the reaction, and the coke formation on the …
Cobalt particle size effects in Fischer–Tropsch synthesis: structural and in situ spectroscopic characterisation on reverse micelle-synthesised Co/ITQ-2 model catalysts
A series of 10% Co/ITQ-2 model catalysts have been prepared by combining a reverse
micellar synthesis with a surface silylated ITQ-2 delaminated zeolite. The catalysts display …
micellar synthesis with a surface silylated ITQ-2 delaminated zeolite. The catalysts display …
Fischer-Tropsch synthesis: catalysts and chemistry
J Van de Loosdrecht, FG Botes, IM Ciobica… - … Inorganic Chemistry II …, 2013 - research.tue.nl
Abstract The Fischer–Tropsch synthesis represents a time-tested and fully proven
technology for the conversion of synthesis gas (CO+ H2) into paraffins, olefins, and …
technology for the conversion of synthesis gas (CO+ H2) into paraffins, olefins, and …
Quantitative Determination of C–C coupling mechanisms and detailed analyses on the activity and selectivity for Fischer–Tropsch Synthesis on Co (0001) …
The Fischer–Tropsch synthesis plays a significant role in re-forming natural resources to
meet global demand for commodities, while there is ongoing oil depletion and population …
meet global demand for commodities, while there is ongoing oil depletion and population …