The development of sustainable energy conversion and storage technologies is an effective
approach to relieve the increasingly severe global energy crisis. Herein, a facile reductive …

The rational design and synthesis of efficient multifunctional electrocatalysts for renewable
energy technologies is of significant interest. Herein, we demonstrate a novel approach for …

Excellent performance and multifunctional electrocatalysts are of great importance for the
development of renewable energy. Here, a multifunctional carbon cloth supported cobalt …

One key step for advancing the widespread practical application of rechargeable metal-air
batteries and water electrolysis fundamentally relies on the development of cost-effective …

Highly efficient and stable trifunctional electrocatalysts with controllable nanostructures
toward hydrogen evolution reaction (HER), oxygen evolution reaction (OER), and oxygen …

Constructing more active and durable trifunctional electrocatalysts is key for boosting overall
water splitting and metal–air battery efficiency. Herein, we developed a trifunctional …

An effectively multifunctional electrocatalyst is crucial for catalyzing the reactions occurred at
electrodes in zinc–air batteries and water splitting cells, such as oxygen evolution reaction …

The design and development of self-supporting multifunctional catalysts for efficient water
splitting and long-life rechargeable zinc-air batteries (ZABs) is of great significance for …

There is a growing need for an efficient multi-functional electrocatalyst that can produce
industry-level high currents at low overpotentials. Herein, we report a highly efficient, robust …

Rational design of efficient multifunctional electrocatalysts is of significant importance for
clean energy conversion and storage systems, such as water electrolysis, fuel cells and …