The low-temperature water–gas shift reaction (LTS: CO + H2O ⇌ CO2 + H2) is a key step in the purification of H2 reformate streams that feed H2 fuel cells. Supported gold catalysts were originally identified as being active for this reaction twenty years ago, and since then, considerable advances have been made in the synthesis and characterisation of these catalysts. In this review, we identify and evaluate the progress towards solving the most important challenge in this research area: the development of robust, highly active catalysts that do not deactivate on-stream under realistic reaction condition
This work presents a comparison of the gold- and platinum-based catalysts behavior in the water-gas ...
Includes bibliographical references.The interests in an alternative, sustainable power generation me...
Renewable hydrogen (H2) is touted to be a possible replacement for carbon based fuels in an effort t...
The low-temperature water–gas shift reaction (LTS: CO + H2O ⇌ CO2 + H2) is a key step in the purific...
The low-temperature water⁻gas shift reaction (LTS: CO + H2O ⇌ CO2 + H2) is a key step in the p...
This is the published version. ©Copyright 2013 Royal Society of ChemistrySince the pioneering findin...
The water-gas shift (WGS) reaction (CO + H2O = CO2+ H2) is an important reaction for hydrogen upgrad...
Bibliography: leaves 77-81.The ultimate objective of the study was to investigate the performance of...
Acknowledgements The UK Catalysis Hub is kindly thanked for resources and support provided via our m...
In this paper the catalytic performances for the low-temperature water-gas shift reaction of Au/TiO(...
Non-thermal plasma activation has been used to enable low-temperature water-gas shift over a Au/CeZr...
Supported gold nanoparticles are widely studied catalysts and are among the most active known for th...
This work is supported through the EPSRC (UK) critical mass research grant EP/J0118O58/1 awarded to ...
The water-gas shift reaction (WGSR) is an intermediate reaction in hydrocarbon reforming processes, ...
Gold supported on ceria-zirconia is one of the most active low temperature water-gas shift catalysts...
This work presents a comparison of the gold- and platinum-based catalysts behavior in the water-gas ...
Includes bibliographical references.The interests in an alternative, sustainable power generation me...
Renewable hydrogen (H2) is touted to be a possible replacement for carbon based fuels in an effort t...
The low-temperature water–gas shift reaction (LTS: CO + H2O ⇌ CO2 + H2) is a key step in the purific...
The low-temperature water⁻gas shift reaction (LTS: CO + H2O ⇌ CO2 + H2) is a key step in the p...
This is the published version. ©Copyright 2013 Royal Society of ChemistrySince the pioneering findin...
The water-gas shift (WGS) reaction (CO + H2O = CO2+ H2) is an important reaction for hydrogen upgrad...
Bibliography: leaves 77-81.The ultimate objective of the study was to investigate the performance of...
Acknowledgements The UK Catalysis Hub is kindly thanked for resources and support provided via our m...
In this paper the catalytic performances for the low-temperature water-gas shift reaction of Au/TiO(...
Non-thermal plasma activation has been used to enable low-temperature water-gas shift over a Au/CeZr...
Supported gold nanoparticles are widely studied catalysts and are among the most active known for th...
This work is supported through the EPSRC (UK) critical mass research grant EP/J0118O58/1 awarded to ...
The water-gas shift reaction (WGSR) is an intermediate reaction in hydrocarbon reforming processes, ...
Gold supported on ceria-zirconia is one of the most active low temperature water-gas shift catalysts...
This work presents a comparison of the gold- and platinum-based catalysts behavior in the water-gas ...
Includes bibliographical references.The interests in an alternative, sustainable power generation me...
Renewable hydrogen (H2) is touted to be a possible replacement for carbon based fuels in an effort t...