Noble Metals in Recent Developments of Heterogeneous Catalysts for CO2 Conversion Processes
Following the advances in capture technologies, CO2 utilization associated with low‐cost
renewable H2 in catalytic hydrogenation is a promising strategy for reducing the carbon …
renewable H2 in catalytic hydrogenation is a promising strategy for reducing the carbon …
Supported noble metal-based catalysts for thermal CO2 hydrogenation to CO
H Dong, MN Jung, Y Zhang, S Wang, S Ding - Molecular Catalysis, 2024 - Elsevier
CO 2 hydrogenation is one of the pivotal approaches to minimizing CO 2 emission. As a
critical step in converting CO 2 into renewable fuels or industrial products, CO 2 …
critical step in converting CO 2 into renewable fuels or industrial products, CO 2 …
Experimental and computational synergistic design of Cu and Fe catalysts for the reverse water–gas shift: A review
Strategies to capture and sequester ever-increasing anthropogenic CO2 emissions include
adsorbing CO2 onto inorganic substrates and then storing it in reservoirs, changing land use …
adsorbing CO2 onto inorganic substrates and then storing it in reservoirs, changing land use …
Ru-catalyzed reverse water gas shift reaction with near-unity selectivity and superior stability
R Tang, Z Zhu, C Li, M Xiao, Z Wu, D Zhang… - ACS Materials …, 2021 - ACS Publications
Cascade catalysis of reverse water gas shift (RWGS) and well-established CO
hydrogenation holds promise for the conversion of greenhouse gas CO2 and renewable H2 …
hydrogenation holds promise for the conversion of greenhouse gas CO2 and renewable H2 …
Boosting the performance of Ni/Al 2 O 3 for the reverse water gas shift reaction through formation of CuNi nanoalloys
Ni supported on alumina is extensively employed as a catalyst for the reverse water gas shift
reaction. However, the formation of inactive Ni aluminates and the high selectivity to …
reaction. However, the formation of inactive Ni aluminates and the high selectivity to …
Tuning Interfacial Sites of WOx/Pt for Enhancing Reverse Water Gas Shift Reaction
Catalytic reverse water gas shift (RWGS) reaction has been regarded as an attractive route
for the conversion of waste CO2 to valuable CO. Despite Pt being facile for hydrogenation …
for the conversion of waste CO2 to valuable CO. Despite Pt being facile for hydrogenation …
Unraveling the influence of oxygen vacancies in MoOx catalysts on CO2 hydrogenation
F Jin, X Yang, J Yang, Y Lei, W Xu, W Jiang… - Chemical Engineering …, 2024 - Elsevier
Oxygen vacancies in oxides are core parameters determining the catalytic performance in
various reactions. This study investigated the influence of oxygen vacancies of MoO x …
various reactions. This study investigated the influence of oxygen vacancies of MoO x …
Synergetic enhancement of activity and selectivity for reverse water gas shift reaction on Pt-Re/SiO2 catalysts
Y Liu, L Li, R Zhang, Y Guo, H Wang, Q Ge… - Journal of CO2 Utilization, 2022 - Elsevier
Catalytic reduction of CO 2 with renewable H 2 to CO via the reverse water gas shift (RWGS)
reaction is an attractive approach to recycle CO 2 and control net emission of CO 2 to …
reaction is an attractive approach to recycle CO 2 and control net emission of CO 2 to …
Decoding the Promotional Effect of Iron in Bimetallic Pt–Fe-nanoparticles on the Low Temperature Reverse Water–Gas Shift Reaction
The reverse water–gas shift (RWGS) reaction is a key technology of the chemical industry,
central to the emerging circular carbon economy. Pt-based catalysts have previously been …
central to the emerging circular carbon economy. Pt-based catalysts have previously been …
Accelerated discovery of multi-elemental reverse water-gas shift catalysts using extrapolative machine learning approach
Designing novel catalysts is key to solving many energy and environmental challenges.
Despite the promise that data science approaches, including machine learning (ML), can …
Despite the promise that data science approaches, including machine learning (ML), can …