Dramatically increased CO2 concentration from several point sources is perceived to cause
severe greenhouse effect towards the serious ongoing global warming with associated …

The need to reduce the emission of carbon dioxide into the atmosphere is pushing toward
the use of “renewable carbon”, so to avoid as much as possible burning “fossil carbon”. It …

A greenhouse gas and mild oxidant, CO2 can effect the oxidative dehydrogenation (CO2-
ODH) of light alkanes over heterogeneous catalysts. These catalysts are bifunctional in that …

Simultaneous valorization of anthropogenic CO 2 and underutilized light alkanes (C 2-C 4)
in shale gas and other feedstock into valuable platform chemicals (olefins) is a highly …

Oxidative dehydrogenation of light alkanes in the presence of carbon dioxide (CO2) via
heterogeneous catalysis is a sustainable approach. Compared with the strong O2 oxidant …

Utilization of CO 2 as soft oxidant is emerging as a potential technology for industrial
production of alkenes. Traditional way of alkene production in mass scale involves direct …

The valorization of CO2 appeals to the chemical industry due to the reduction in greenhouse
gas emissions and the ability to offer more renewable products. Propylene production is the …

Dehydrogenation or oxidative dehydrogenation (ODH) of alkanes to produce alkenes
directly from natural gas/shale gas is gaining in importance. Ti3AlC2, a MAX phase, which …

Extensive research efforts have been devoted to using greenhouse gas CO 2 in upgrading
bio-derived feedstock to value-added chemicals using the oxidative dehydrogenation route …

The great potential of the oxidative dehydrogenation of propane by CO 2 (CO 2-ODHP)
reaction in facilitating propylene production from propane and elimination of CO 2 has …