CO2 capture by various nanoparticles: Recent development and prospective
H Li - Journal of Cleaner Production, 2023 - Elsevier
CO 2 capture, utilization and storage (CCUS) are recognized as the most effective strategy
for the removal of CO 2 from terminal emissions, whereas CO 2 capture is the primary and …
for the removal of CO 2 from terminal emissions, whereas CO 2 capture is the primary and …
Hydrogen for CO2 processing in heterogeneous catalytic reactions
TP Minyukova, EV Dokuchits - International Journal of Hydrogen Energy, 2023 - Elsevier
Efficient catalytic technologies for converting CO 2 with hydrogen into value-added
chemicals and fuels can help to solve the environmental problems related with large CO 2 …
chemicals and fuels can help to solve the environmental problems related with large CO 2 …
Ultrastable bifunctional multi-stage active metal catalysts for low concentration CO2 capture and in-situ conversion
J Liu, J Zhang, H Sun, C Gao, Y Chen, R Cui, Y Tian - Fuel, 2024 - Elsevier
Integrating CO 2 capture and in-situ conversion is a promising means of processing low
concentration CO 2 in flue gas. The development of a low cost, highly stable catalyst to …
concentration CO 2 in flue gas. The development of a low cost, highly stable catalyst to …
Introducing a novel catalyst for efficient conversion of CO2 into syngas through reverse-water-gas-shift (RWGS) reactions based on highly mesoporous structures …
The RWGS is the first step in CO 2 hydrogenation. This process converts CO 2 into valuable
compounds, such as methanol, to address the global issue of CO 2 emissions. In this …
compounds, such as methanol, to address the global issue of CO 2 emissions. In this …
Utilization of steel industry waste derived magnetic iron-oxide nanoparticles for reverse water gas shift reaction
The improvements associated with developing newer pathways for the catalytic reduction of
carbon dioxide (CO 2) into valuable products have grown a lot in recent times. Herein, we …
carbon dioxide (CO 2) into valuable products have grown a lot in recent times. Herein, we …
CeO2-Supported Single-Atom Cu Catalysts Modified with Fe for RWGS Reaction: Deciphering the Role of Fe in the Reaction Mechanism by In Situ/Operando …
AIM Rabee, H Abed, TH Vuong, S Bartling… - ACS …, 2024 - ACS Publications
Reverse water–gas shift (RWGS) reaction has attracted much attention as a potential
approach for CO2 valorization via the production of synthesis gas, especially over Fe …
approach for CO2 valorization via the production of synthesis gas, especially over Fe …
CO2 Hydrogenation: Na Doping Promotes CO and Hydrocarbon Formation over Ru/m-ZrO2 at Elevated Pressures in Gas Phase Media
G Seuser, R Staffel, Y Hocaoglu, GF Upton, ES Garcia… - Nanomaterials, 2023 - mdpi.com
Sodium-promoted monoclinic zirconia supported ruthenium catalysts were tested for CO2
hydrogenation at 20 bar and a H2: CO2 ratio of 3: 1. Although increasing sodium promotion …
hydrogenation at 20 bar and a H2: CO2 ratio of 3: 1. Although increasing sodium promotion …
Recent Advances in the Reverse Water–Gas Conversion Reaction
C Zhou, J Zhang, Y Fu, H Dai - Molecules, 2023 - mdpi.com
The increase in carbon dioxide emissions has significantly impacted human society and the
global environment. As carbon dioxide is the most abundant and cheap C1 resource, the …
global environment. As carbon dioxide is the most abundant and cheap C1 resource, the …
[HTML][HTML] Copper catalysts for CO2 hydrogenation to CO through reverse water–gas shift reaction for e-fuel production: Fundamentals, recent advances, and prospects
E-fuel production, which is achieved using atmospheric or biogenic CO 2 and green H 2,
shows promise for reducing atmospheric CO 2 levels and curtailing our reliance on fossil …
shows promise for reducing atmospheric CO 2 levels and curtailing our reliance on fossil …
Ni nanoparticles on Co3O4 catalyze the reverse water–gas shift with 95% CO selectivity at 300° C
Ni nanoparticles (NPs) supported on Al 2 O 3, ZnO, Fe 2 O 3 and Co 3 O 4 activate CO 2 for
the reverse water–gas shift (RWGS) reaction at ambient pressure. The highly dispersed Ni …
the reverse water–gas shift (RWGS) reaction at ambient pressure. The highly dispersed Ni …