The oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) are core steps of
various energy conversion and storage systems. However, their sluggish reaction kinetics …

Transition metal borides, carbides, pnictides, and chalcogenides (X-ides) have emerged as
a class of materials for the oxygen evolution reaction (OER). Because of their high earth …

Recently, H 2 has attracted increasing attention as green energy carrier holding the
possibility to replace fossil fuel-based energy sources and thereby reduce CO 2 emissions …

Electrochemical water splitting for hydrogen generation is a promising pathway for
renewable energy conversion and storage. One of the most important issues for efficient …

As highlighted by the recent roadmaps from the European Union and the United States,
water electrolysis is the most valuable high‐intensity technology for producing green …

Constructing an electrocatalyst with highly durable active and cost-effective core-shell with a
porous carbon nanosheet for the development of high efficiency energy conversion and …

The activity of Ni (hydr) oxides for the electrochemical evolution of oxygen (OER), a key
component of the overall water splitting reaction, is known to be greatly enhanced by the …

Heterogeneous catalysis in thermal gas-phase and electrochemical liquid-phase chemical
conversion plays an important role in our modern energy landscape. However, many of the …

As a group of large-surface-area nonmetal materials, polymeric carbon nitride (C x N y) and
its hybrid structures are nowadays of ever-increasing interest for use in energy devices …

Renewable energy storage via water electrolysis strongly depends on the design of
electrified electrode–electrolyte interfaces at which electricity is converted into chemical …