To trace the origin of catalyst deactivation is in many cases difficult. It is usually a complex
problem where several mechanisms contribute to the loss of activity/selectivity. Low …

Herein, the feasibility of water-induced deactivation of cobalt-based Fischer-Tropsch
catalysts by oxidation is summarized and discussed with the help of thermodynamic …

The structure of alumina-supported cobalt catalysts promoted with platinum and their
catalytic performance in Fischer–Tropsch synthesis were investigated under realistic …

Sintering of supported cobalt nanoparticles is one of the main deactivation mechanisms in
the Fischer–Tropsch synthesis. In this study, crystallite growth was studied with an alumina …

This short critical review summarises and analyses the developments in Fischer–Tropsch
catalysis using bimetallic alloys. We introduce a simple notation for such catalysts, and …

Co-electrolysis of water and carbon dioxide using solid oxide electrolysis cell combined with
the catalytic reactor to produce renewable synthesis fuel is considered as a promising …

The effects of electronic properties of the inner and outer surfaces of carbon nanotubes
(CNTs) on the deactivation of cobalt Fischer− Tropsch (FT) catalysts were studied. The …

Catalyst deactivation is an important topic for industrial catalyst development. Sintering of
small cobalt crystallites is one of the deactivation mechanisms of cobalt-based Fischer …

In South Korea, where there are no resources such as natural gas or crude oil, research on
alternative fuels has been actively conducted since the 1990s. The research on synthetic oil …

An extensive study of Fischer-Tropsch (FT) synthesis on cobalt nano particles supported on
γ-alumina and carbon nanotubes (CNTs) catalysts is reported. 20 wt% of cobalt is loaded on …