Supported single-metal atom catalysts (SACs) are constituted of isolated active metal
centers, which are heterogenized on inert supports such as graphene, porous carbon, and …

Multiscale structural engineering of high-performance bifunctional electrocatalysts to
influence hydrogen and oxygen evolution reactions (HER and OER) has a significant role in …

Hierarchical nanostructures with hollow architectures can provide rich active sites, improved
transport of ions, and highly robust structure for electrochemical applications. In this work …

The self-assembly of two-dimensional (2D) nanostructures into one-dimensional (1D)
nanoarchitectures may result in materials which combine the unique physicochemical …

Abundant electrochemical active sites, high electronic conductivity as well as stable
structure and electrochemical activity are indispensable but usually incompatible to the ideal …

In recent years, single-atom catalysts (SACs) have attracted increasing attention in catalysis.
However, their stability is considerably challenging. As a result, fine-tuning the interaction of …

Advancing green hydrogen production technologies relies heavily on the development of
highly efficient and durable bifunctional catalysts for overall water splitting. Herein, this study …

The development of highly efficient electrocatalysts toward the oxygen evolution reaction is
imperative for advancing water splitting technology to generate clean hydrogen energy …

Orbital hybridization is a powerful tool for modulating electronic structures toward various
electrocatalytic reactions. Compared to the widely reported dd hybridization in d-block metal …

Overall water splitting is a hot topic in the development of green energy, but it cannot be
generalized on a large scale due to the lack of low-cost and highly efficient overall water …