Fossil fuel-driven thermochemical hydrogenation and oxidation using high-pressure H2 and
O2 are still popular but energy-intensive CO2-emitting processes. At present, develo** …

We present an update and revision to our 2010 review on the topic of proton-coupled
electron transfer (PCET) reagent thermochemistry. Over the past decade, the data and …

Electrochemistry has recently gained increased attention as a versatile strategy for
achieving challenging transformations at the forefront of synthetic organic chemistry …

Compared to modern fossil‐fuel‐based refineries, the emerging electrocatalytic refinery (e‐
refinery) is a more sustainable and environmentally benign strategy to convert renewable …

Selective oxidation to synthesize nitriles is critical for feedstock manufacturing in the
chemical industry. Current strategies typically involve substitutions of alkyl halides with toxic …

The electrocatalytic splitting of water is recognized to be the most sustainable and clean
technology for the production of hydrogen (H2). Unfortunately, the efficiency is seriously …

To make efficient use of electrical energy in the whole electrocatalysis conversion process,
the integrating of anode and cathode reactions plays a vital role. The combination of …

As the breadth of radical chemistry grows, new means to promote and regulate single-
electron redox activities play increasingly important roles in driving modern synthetic …

Renewable H2 production by water electrolysis has attracted much attention due to its
numerous advantages. However, the energy consumption of conventional water electrolysis …

Abstract Haematite (α-Fe2O3) has been extensively investigated as a photoanode in
photoelectrochemical water oxidation, but the product O2 has a low economic value. Here …