Group VI transition metal chalcogenides are the subject of increasing research interest for
various electrochemical applications such as low-temperature water electrolysis, batteries …

Chevrel phase compounds have attracted increasing attention as electrochemical energy
storage materials and electro-catalysts. Benefiting from their unique crystal structure …

For the energy conversion technology, it is crucial to design catalysts for water splitting
applications namely Oxygen evolution reaction and Hydrogen evolution reaction (OER and …

The Chevrel phase (CP) is a class of molybdenum chalcogenides that exhibit compelling
properties for next-generation battery materials, electrocatalysts, and other energy …

In this work, we implement a facile microwave-assisted synthesis method to yield three
binary Chevrel-Phase chalcogenides (Mo6X8; X= S, Se, Te) and investigate the effect of …

The utilization of Pt nanoparticles as catalysts in hydrogen evolution reaction (HER) is a
widely adopted strategy for hydrogen production. Nonetheless, the reduction of Pt usage …

The multimetallic catalysts with adjustable electronic structures and synergy effect between
various metals compared to monometallic catalysts are widely applied in electrocatalysis …

Develo** a simple, safe, and efficient route for the preparation of nanoparticulate ternary
Chevrel phases M x Mo6S8 (CPs; where M= metal) is of great interest because of their …

Chevrel phases (CPs) with the chemical formula of MxMo6T8 (T= S, Se and Te) have drawn
great interest as noble-metal-free electrocatalysts in recent years owing to their unique open …

Abstract Chevrel Phases, M x Mo 6 S 8, are a class of heterogenous catalysts comprised of
abundant materials that have been reported to out-perform conventional MoS 2 catalysts in …