Electrochemistry and heterogeneous catalysis on metals are usually treated as different
branches of physical chemistry, while similar concepts are developed to model their …

Despite the indisputable success of conventional approaches to manipulate the
performance of heterogeneous catalysts by tuning the composition and structure of active …

Electrochemical production of commodity chemicals via CO 2–H 2 O co-electrolysis using
solid oxide electrolysis cells presents a promising cost-effective energy-storage approach …

To reach a decarbonized future, the conversion of greenhouse gases into green fuels and
valuable chemicals is of crucial importance. Methane emissions are the second most …

To store solar energy into chemical energy and ameliorate over-emission of CO 2 in modern
society, the promising photoelectrocatalytic reduction of CO 2 into multicarbon products (C …

High-temperature solid oxide cells (SOCs) can be used as a practical alternative for
generation of value-added chemicals and energy-intensive fuels. Here we (1) report a …

The catalytic activity and selectivity of metals can be significantly modified via the action of
promoters, via the interaction with the support (metal–support interactions, MSI) or, when the …

During the last two decades the Electrochemical Promotion of Catalysis (EPOC)
phenomenon has been studied extensively for many catalytic reactions including …

The acceleration of Faradaic reactions by oscillating electric potentials has emerged as a
viable tool to enhance electrocatalysis, but the non-Faradaic dynamic promotion of thermal …

The catalytic activity and electrochemical promotion of catalysis (EPOC) of the bimetallic Pd−
Co nanoparticles (10 nm) deposited on yttria‐stabilized zirconia were investigated for …