Oxygen evolution reaction (OER) is an essential electrochemical reaction in water-splitting
and rechargeable-metal-air-batteries to achieve clean energy production and efficient …

Transition metal selenides (TMSes) as a non-noble metal based-electrocatalyst have
received extensive attentions in water splitting due to its controllable electrical structure and …

Electrocatalysis plays a prominent role in renewable energy conversion and storage,
enabling a number of sustainable processes for future technologies. There are generally …

NiFe-LDH has been recognized as the most efficient and cost-effective material for wider
applications in electrocatalytic, photoelectrocatalytic, and photocatalytic water splitting, with …

Many countries such as India, China, Britain, France, etc. have decided to end the usage of
vehicles based on fossil fuels. An appropriate solution to the present energy crisis is to …

Hydrogen production via water splitting is considered to be one of the most promising
technologies in the future hydrogen economy, where the critical challenge in this technology …

Construction of pseudocapacitive electrode materials with well-defined nanostructures is
highly desirable for exploring supercapacitors with both high energy density and power …

High-performance magnetic graphene aerogels nanocomposites with low density and
enhanced microwave absorption properties have been developed firstly by a two-step …

High‐performance supercapacitors have attracted great attention due to their high power,
fast charging/discharging, long lifetime, and high safety. However, the generally low energy …

Exploring highly efficient electrochemical water splitting catalysts has recently attracted
extensive research interest from both fundamental researches and practical applications …