Catalytic CO2 Conversion to C1 Chemicals over Single‐Atom Catalysts
Carbon dioxide, as an abundant and nontoxic C1 resource, can be extensively applied to
produce C1 building blocks via direct and indirect routes. On account of the stable electronic …
produce C1 building blocks via direct and indirect routes. On account of the stable electronic …
Plasma-catalytic CO2 hydrogenation to methanol over CuO-MgO/Beta catalyst with high selectivity
Q Chen, S Meng, R Liu, X Zhai, X Wang, L Wang… - Applied Catalysis B …, 2024 - Elsevier
Herein, we report a CuO-MgO/Beta catalyst, which exhibits 72.0% methanol selectivity with
8.5% CO 2 conversion in plasma-catalytic CO 2 hydrogenation at ambient conditions (30° C …
8.5% CO 2 conversion in plasma-catalytic CO 2 hydrogenation at ambient conditions (30° C …
Outlook for improving energy efficiency, conversion rates, and selectivity of plasma-assisted CO2 conversion
With the escalation of global climate change, reduction of carbon emissions and achieving
carbon neutrality have gradually become significant concerns. Conversion of CO 2 into …
carbon neutrality have gradually become significant concerns. Conversion of CO 2 into …
Deep learning-assisted pulsed discharge plasma catalysis modeling
In this paper, a multi-layer feed-forward deep neural network was introduced into the
plasma/plasma catalysis kinetics modeling. The deep learning-assisted modeling enables …
plasma/plasma catalysis kinetics modeling. The deep learning-assisted modeling enables …
Engineering Ni-Co bimetallic interfaces for ambient plasma-catalytic CO2 hydrogenation to methanol
Plasma catalysis offers a flexible and decentralized solution for CO 2 hydrogenation to
methanol under ambient conditions, avoiding the high temperatures and pressures required …
methanol under ambient conditions, avoiding the high temperatures and pressures required …
Sustainable hydrogen and ammonia technologies with nonthermal plasma catalysis: mechanistic insights and technoeconomic analysis
The search for novel catalytic processes is essential to combat climate change by tapping
into sustainable hydrogen technologies, which rely on low-carbon H2 production and …
into sustainable hydrogen technologies, which rely on low-carbon H2 production and …
Basic metal oxide integrated DBD packed bed reactor for the decomposition of CO2
A coaxial dielectric barrier discharge (DBD) reactor was used to perform catalytic non-
thermal plasma for CO 2 conversion under ambient conditions. A systematic study was …
thermal plasma for CO 2 conversion under ambient conditions. A systematic study was …
Dielectric Barrier Discharge Plasma-Assisted Catalytic CO2 Hydrogenation: Synergy of Catalyst and Plasma
X Gao, J Liang, L Wu, L Wu, S Kawi - Catalysts, 2022 - mdpi.com
CO2 hydrogenation is an effective way to convert CO2 to value-added chemicals (eg, CH4
and CH3OH). As a thermal catalytic process, it suffers from dissatisfactory catalytic …
and CH3OH). As a thermal catalytic process, it suffers from dissatisfactory catalytic …
Numerical investigation on the heterogeneous pulsed dielectric barrier discharge plasma catalysis for CO2 hydrogenation at atmospheric pressure: Effects of Ni and Cu catalysts on the …
J Du, L Zong, S Zhang, Y Gao, L Dou… - Plasma Processes …, 2022 - Wiley Online Library
The simulation model of the pulsed dielectric barrier discharge plasma catalytic CO2
hydrogenation is established to numerically investigate the effects of Ni and Cu catalysts on …
hydrogenation is established to numerically investigate the effects of Ni and Cu catalysts on …
[HTML][HTML] Plasma-catalytic CO2 hydrogenation to ethane in a dielectric barrier discharge reactor
Anthropogenic greenhouse gas emissions have caused changes to the Earth's climate,
resulting in catastrophic weather events that are becoming more frequent and intense …
resulting in catastrophic weather events that are becoming more frequent and intense …