The development of renewable energy technologies is essential to achieve carbon
neutrality. Hydrogen can be stably stored and transported in large quantities to maximize …

Alkaline water splitting, especially anion-exchange-membrane based water electrolysis, is
an attractive way for low-cost and scalable H2 production. Green electricity-driven alkaline …

The role of multiple vacancies containing cation and anion defects in NiFe layered double
hydroxide (LDH) is still worth pursuing in electrocatalytic oxygen evolution reaction (OER) …

The scalable production of inexpensive, efficient, and robust catalysts for oxygen evolution
reaction (OER) that can deliver high current densities at low potentials is critical for the …

Versatile catalyst systems with large current density under industrial conditions are pivotal to
give impetus to hydrogen energy from fundamental to practical applications. Herein, a …

The oxygen evolution reaction (OER) remains a bottleneck for the overall water splitting.
Electrocatalysts with superior activity and stability are still highly desired. Herein, a stepwise …

Oxygen evolution reaction (OER) is a significant half-reaction in varied energy conversion
devices. Ni-based layered double hydroxides (LDHs) have attracted immense attention …

Oxygen evolution reaction (OER) plays an important role in many energy conversions and
storage technologies, such as water splitting, rechargeable metal air batteries, renewable …

Next-generation energy technologies have captured increasing research interest because of
their fascinating advantages, yet the implementation of such technologies requires efficient …

Developing efficient and affordable electrocatalysts for the sluggish oxygen evolution
reaction (OER) remains a significant barrier that needs to be overcome for the practical …