Platinum based catalysts in the water gas shift reaction: Recent advances
The water gas shift (WGS) is an equilibrium exothermic reaction, whose corresponding
industrial process is normally carried out in two adiabatic stages, to overcome the …
industrial process is normally carried out in two adiabatic stages, to overcome the …
An inclusive review on the synthesis of molybdenum carbide and its hybrids as catalyst for electrochemical water splitting
The world is using lot of fossil fuels due to increase in energy demand. This results in high
production of CO 2 which is the main reason for global warming and harmful for the …
production of CO 2 which is the main reason for global warming and harmful for the …
Low-temperature hydrogen production from methanol steam reforming on Zn-modified Pt/MoC catalysts
F Cai, JJ Ibrahim, Y Fu, W Kong, J Zhang… - Applied Catalysis B …, 2020 - Elsevier
Methanol steam reforming (MSR) is a promising process to produce hydrogen suitable for
polymer electrolyte membrane fuel cells, but the development of catalysts with high activity …
polymer electrolyte membrane fuel cells, but the development of catalysts with high activity …
Carbide-supported PtRu catalysts for hydrogen oxidation reaction in alkaline electrolyte
Owing to the sluggish kinetics of the hydrogen oxidation reaction (HOR) in alkaline
electrolyte, it is considered a limiting reaction for the development of anion-exchange …
electrolyte, it is considered a limiting reaction for the development of anion-exchange …
A highly active and stable Pd/MoC catalyst for hydrogen production from methanol decomposition
F Cai, Y Guo, JJ Ibrahim, J Zhang, Y Sun - Applied Catalysis B …, 2021 - Elsevier
Methanol decomposition is a promising method to produce clean hydrogen fuel. However, it
requires developing highly active and stable catalysts at low temperature. Herein, a series of …
requires developing highly active and stable catalysts at low temperature. Herein, a series of …
Crowded supported metal atoms on catalytically active supports may compromise intrinsic activity: A case study of dual-site Pt/α-MoC catalysts
Increasing the surface population of supported catalytic sites, assuming these sites are
stable, is considered a straightforward approach to improving the overall catalytic …
stable, is considered a straightforward approach to improving the overall catalytic …
Low temperature CO2 hydrogenation to alcohols and hydrocarbons over Mo2C supported metal catalysts
Y Chen, S Choi, LT Thompson - Journal of catalysis, 2016 - Elsevier
A series of M/Mo 2 C (M= Cu, Pd, Co and Fe) were synthesized and evaluated for CO 2
hydrogenation at 135–200° C in liquid 1, 4-dioxane solvent. The Mo 2 C served as both a …
hydrogenation at 135–200° C in liquid 1, 4-dioxane solvent. The Mo 2 C served as both a …
Mechanistic and kinetic insights into the Pt-Ru synergy during hydrogen generation from ammonia borane over PtRu/CNT nanocatalysts
Increasing the utilization efficiency of noble metals by the synergy with less expensive
metals is an important yet challenging issue in heterogeneous catalysis. Herein, exemplified …
metals is an important yet challenging issue in heterogeneous catalysis. Herein, exemplified …
Engineering Stable Surface Oxygen Vacancies on ZrO2 by Hydrogen-Etching Technology: An Efficient Support of Gold Catalysts for Water-Gas Shift Reaction
The surface structure of supports is crucial to fabricate efficient supported catalysts for water-
gas shift (WGS). Here, hardly reducible ZrO2 was etched with hydrogen (H), aiming to …
gas shift (WGS). Here, hardly reducible ZrO2 was etched with hydrogen (H), aiming to …
Black TiO 2− x with stable surface oxygen vacancies as the support of efficient gold catalysts for water-gas shift reaction
Exploring appropriate supports is a key step to prepare efficient water-gas shift (WGS)
catalysts. In this sense, supports with some oxygen vacancies are preferable, but there have …
catalysts. In this sense, supports with some oxygen vacancies are preferable, but there have …