Metallic CoS 2 has attracted considerable interest for the catalysis of electrochemical
reactions; however, its catalytic activity is still lower than that of commercial novel metal …

Herein, an efficient bifunctional electrocatalyst based on binary metal nitride (Zn3N2–Co2N)
nanorod arrays decorated with ultrathin Co3O4 nanoparticles is prepared to improve overall …

To meet the future demand for green energy, the development of catalysts for water splitting
has become an essential task for scientists worldwide. In this context, a novel catalyst that …

Human activities in daily life and industrial production generate a significant volume of
substandard water with high salt content, organic compounds, and other pollutants, often …

The pursuit of efficient and durable catalysts utilizing non-noble metals is critical for
sustainable energy conversion through electrochemical water splitting. Herein, we present a …

Rhodium and its compounds have recently been reported more often than ever in the
literature as hydrogen evolution reaction (HER) electrocatalysts. The recent developments in …

The energy crisis and complex environmental issues stemming from fossil fuel consumption
have propelled the development and utilization of renewable energy sources, with …

Designing catalysts at atomic level fine-tune the electronic structure of surface-active site for
efficient water splitting, is a highly desirable approach but also poses significant challenges …

Exploring suitable dual active site and metal–substrate interface effect is essential for
designing efficient and robust electrocatalysts across a wide pH range for the hydrogen …

A new catalyst has been developed that utilizes molybdenum oxide (MoO 3)/nickel
molybdenum oxide (NiMoO 4) heterostructured nanorods coupled with Pt ultrafine …