Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

Abstract Design and construction of low‐cost electrocatalysts with high catalytic activity and
long‐term stability is a challenging task in the field of catalysis. Metal‐organic frameworks …

Metal–organic frameworks (MOFs) have extensively emerged as promising
templates/precursors to prepare functional derivatives for various purposes because of their …

Electrochemical water splitting has attracted significant attention as a key pathway for the
development of renewable energy systems. Fabricating efficient electrocatalysts for these …

Highly active, stable and low-cost electrocatalysts are critical to make environment-related
electrocatalytic techniques commercially viable. Nanostructured transition metal phosphides …

Amongst various futuristic renewable energy sources, hydrogen fuel is deemed to be clean
and sustainable. Electrochemical water splitting (EWS) is an advanced technology to …

More than 95%(in volume) of all of today's chemical products are manufactured through
catalytic processes, making research into more efficient catalytic materials a thrilling and …

Abstract Metal–organic frameworks (MOFs), an emerging class of porous materials, have
shown intriguing and promising properties in a wide range of applications due to their …

This review depicts the exposure of self-sacrifice MOF, their structure, synthesis as well as
potential application from a prodigious angle. We elaborated critically each of the self …

Metal–organic framework (MOF) nanoparticles, also called porous coordination polymers,
are a major part of nanomaterials science, and their role in catalysis is becoming central …