Anthropogenic activities related to population growth, economic development, technological
advances, and changes in lifestyle and climate patterns result in a continuous increase in …

In recent years, some experiments and theoretical work have pointed out that diatomic
catalysts not only retain the advantages of monoatomic catalysts, but also introduce a variety …

The need for enhanced energy storage and improved catalysts has led researchers to
explore advanced functional materials for sustainable energy production and storage …

The electrochemical reduction of CO 2 into fine chemicals, assisted with renewable energy,
is the most instant approach for balancing the atmospheric CO 2 level, as well as for storing …

Complex oxides are an important class of materials with enormous potential for
electrochemical applications. Depending on their composition and structure, such complex …

Platinum group metal (PGM)‐free M‐N‐C catalysts have exhibited dramatic electrocatalytic
performance and are considered the most promising candidate of the Pt catalysts in oxygen …

Develo** efficient and robust metal–nitrogen–carbon electrocatalysts for oxygen reduction
reaction (ORR) is of great significance for the application of hydrogen–oxygen fuel cells and …

Fruitful efforts are made in designing effective zinc electrodes and electrocatalysts for
rechargeable Zn-air batteries, while furious gaseous oxygen evolution on the air electrode …

A rational design of high-efficiency electrocatalysts and thus achieving sensitive
electrochemical sensing remains a great challenge. In this work, single-atom indium …

Rational design of efficient single‐atom catalysts is a potential avenue to mitigate the
sluggish oxygen evolution reaction (OER) kinetics. Adopting appropriate matrixes to …