Transition metal borides, carbides, pnictides, and chalcogenides (X-ides) have emerged as
a class of materials for the oxygen evolution reaction (OER). Because of their high earth …

Electrocatalytic water splitting plays a pivotal part towards the construction of sustainable
and environmental benign energy conversion and generation sector that ultimately …

The critical challenge of supercapacitors lies in sluggish kinetics of electrodes and
undesirable specific capacitance during charge discharge process including large volume …

Transition metal hydroxides (M‐OH) and their heterostructures (X| M‐OH, where X can be a
metal, metal oxide, metal chalcogenide, metal phosphide, etc.) have recently emerged as …

Constructing noble metal single-atom catalysts (NMSACs) is essential to boosting the water
splitting electrocatalysis by virtue of their maximum atom utilization and distinctive electronic …

Highly efficient, low-cost electrocatalysts having superior activity and stability are crucial for
practical electrochemical water splitting, which involves hydrogen and oxygen evolution …

The oxygen evolution reaction (OER) has aroused extensive interest from materials
scientists in the past decade by virtue of its great significance in the energy …

In the last few decades, layered double hydroxide (LDH) based materials have been given a
lot of attention to the researchers due to significant advances in enabling efficient oxygen …

The fabrication of porous structure in the ultrathin materials still faces high difficulties. In
particular, the precise modulations in the porosity and size are highly challenging. In this …

In order to fulfill the future crisis in the technology field modern research has been diverted
towards the development of various electrochemical devices. Such devices are highly …