Photoinduced chemical transformations have received in recent years a tremendous amount
of attention, providing a plethora of opportunities to synthetic organic chemists. However …

Electrochemical reduction of gaseous feeds such as CO2, CO, and N2 holds promise for
sustainable energy and chemical production. Practical application of this technology is …

The practical implementation of electrochemical CO2 reduction technology is greatly
challenged by notable CO2 crossover to the anode side, where the crossed-over CO2 is …

The modularity and synthetic flexibility of metal–organic frameworks (MOFs) have provoked
analogies with enzymes, and even the term MOFzymes has been coined. In this review, we …

Carbonate formation is the primary source of energy and carbon losses in low-temperature
carbon dioxide electrolysis. Realigning research priorities to address the carbonate problem …

The electrochemical NO reduction reaction (NORR) is a promising approach for both
nitrogen cycle regulation and ammonia synthesis. Due to the relatively low concentration of …

The carbon dioxide electroreduction reaction (CO2RR), an emerging electrocatalysis
reaction, is promising for converting CO2 into value-added fuels or chemicals (eg …

The electrochemical reduction of carbon dioxide (CO2RR) requires access to ample
gaseous CO2 and liquid water to fuel reactions at high current densities for industrial-scale …

Renewable fuel generation is essential for a low carbon footprint economy. Thus, over the
last five decades, a significant effort has been dedicated towards increasing the …

Electrocatalytic nitric oxide (NO) reduction represents a sustainable route from the point of
view of environmental protection and ammonia generation. However, conversion from NO to …