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 …

Current conditions suggest that to mitigate climate change, carbon neutrality must be
achieved. Despite efforts to reduce carbon dioxide emissions, existing strategies remain …

This study reports the electrochemical activation (EPOC) of ruthenium catalyst film with
alkaline ion conductors for hydrogen production via catalytic decomposition of ammonia …

This work aims contributing to develop a cathode for CO 2 methanation in tubular co-ionic
(H+/O 2− conducting) SOECs and to cell operation optimization to decrease energy input …

Electromagnetic induction heating (EMIH) boosted highly selective reduction of CO 2 into
CO on Fe fiber-based catalysts, via reverse water–gas shift (RWGS) proceeding at milder …

CO 2 transformed into CO is the initial step in the manufacturing of carbon-neutral products.
Herein, the supported iron-oxide (FeO x) nanoparticles are investigated for the reverse water …

The hydrogenation of CO 2 remains one of the most intriguing and effective strategies for
addressing the continuous increase of CO 2 emissions in the atmosphere. At the same time …

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 …

We report the non-Faradaic electrochemical promotion of a Brønsted acid-catalyzed reaction
over a metal oxide surface. Isopropanol dehydration to propylene was used as a probe …

The electrochemically assisted CO 2 hydrogenation directly to hydrocarbon fuels was
studied, apparently for the first time, over a cheap, widespread and non-precious Fe catalyst …