CO2 is a promising renewable, cheap, and abundant C1 feedstock for producing valuable chemicals, such as CO and methanol. In conventional reactors, because of thermodynamic constraints, converting CO2 to methanol requires high temperature and pressure, typically 250 °C and 20 bar. Nonthermal plasma is a better option, as it can convert CO2 at near-ambient temperature and pressure. Adding a catalyst to such plasma setups can enhance conversion and selectivity. However, we know little about the effects of catalysts in such systems. Here, we study CO2 hydrogenation in a dielectric barrier discharge plasma-catalysis setup under ambient conditions using MgO, γ-Al2O3, and a series of CoxOy/MgO catalysts. While all three catalyst types enhanced CO...
Direct conversion of CO2 into CO and O2 is performed in a packed-bed dielectric barrier discharge (D...
The limited resources of oil and natural gas, together with an increasing energy demand, forces us t...
The up to date progress, present status and future directions of CO2 conversion in various gaseous d...
CO2 is a promising renewable, cheap, and abundant C1 feedstock for producing valuable chemicals, suc...
CO2 hydrogenation to methanol is a promising process for CO2 conversion and utilization. Despite a w...
International audienceThe review focuses on presenting recent findings on CO2 methanation plasma-cat...
Anthropogenic greenhouse gas emissions have caused changes to the Earth's climate, resulting in cata...
Thermodynamic and kinetic limitations can restrict the feasibility and scalability of conventional c...
A coaxial dielectric barrier discharge (DBD) reactor has been developed for plasma-catalytic convers...
Hydrogenation of CO2 is a promising way for CO2 utilization due to the possibility of producing a wi...
Thermodynamic and kinetic limitations can restrict the feasibility and scalability of conventional t...
This work aims to bring a potential solution for improving the synthesis of liquid organic products ...
A coaxial dielectric barrier discharge (DBD) reactor has been developed for plasma-catalytic convers...
Non-thermal plasmas provide a unique method of converting CO2 into CO and other fuels. However, how ...
Direct conversion of CO2 into CO and O2 is performed in a packed-bed dielectric barrier discharge (D...
The limited resources of oil and natural gas, together with an increasing energy demand, forces us t...
The up to date progress, present status and future directions of CO2 conversion in various gaseous d...
CO2 is a promising renewable, cheap, and abundant C1 feedstock for producing valuable chemicals, suc...
CO2 hydrogenation to methanol is a promising process for CO2 conversion and utilization. Despite a w...
International audienceThe review focuses on presenting recent findings on CO2 methanation plasma-cat...
Anthropogenic greenhouse gas emissions have caused changes to the Earth's climate, resulting in cata...
Thermodynamic and kinetic limitations can restrict the feasibility and scalability of conventional c...
A coaxial dielectric barrier discharge (DBD) reactor has been developed for plasma-catalytic convers...
Hydrogenation of CO2 is a promising way for CO2 utilization due to the possibility of producing a wi...
Thermodynamic and kinetic limitations can restrict the feasibility and scalability of conventional t...
This work aims to bring a potential solution for improving the synthesis of liquid organic products ...
A coaxial dielectric barrier discharge (DBD) reactor has been developed for plasma-catalytic convers...
Non-thermal plasmas provide a unique method of converting CO2 into CO and other fuels. However, how ...
Direct conversion of CO2 into CO and O2 is performed in a packed-bed dielectric barrier discharge (D...
The limited resources of oil and natural gas, together with an increasing energy demand, forces us t...
The up to date progress, present status and future directions of CO2 conversion in various gaseous d...