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

Rational design of highly efficient, robust and nonprecious electrocatalysts for the oxygen
reduction reaction (ORR), oxygen evolution reaction (OER) and hydrogen evolution reaction …

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

Developing multifunctional electrocatalysts has been a lasting challenge. Herein, with dual
surface guiding agents NaI and PVP, uniformly dispersive Pt nanoclusters on self-supported …

Rational design and construction of a multifunctional electrocatalyst featuring with high
efficiency and low cost is fundamentally important to realize new energy technologies …

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 …

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 development of high-performance and stable trifunctional electrocatalysts is a pressing
challenge for the practical application of water splitting and regenerative Zn-air batteries …

The rational design of efficient and stable carbon-based electrocatalysts for oxygen
reduction and oxygen evolution reactions is crucial for improving energy density and long …

Rational design of electrocatalysts with unique morphological structures and chemical
compositions is crucial for electrochemical performance and energy storage capacity. In this …