Hydrogen production employing non-carbon materials has tremendous promise toward the
sustainable Future. Conventional technology relies on water splitting (WS) for hydrogen …

In this work, simple, novel, eco-friendly, low-cost and highly-active cobalt oxytyramine
phthalocyanine polymer, poly [CoOTPc] is synthesized and characterized with various …

The fabrication of an economical, earth-abundant, environment-friendly, and highly efficient
electrocatalyst for anodic oxygen evolution reaction (OER) in the electrolysis of water is …

Hydrogen energy, heralded as a novel, clean, and highly efficient energy source, stands at
the forefront of initiatives aimed at decarbonizing and fostering a sustainable carbon-neutral …

Designing and development of effective bifunctional catalysts considering both oxygen
evolution reaction (OER) and oxygen reduction reaction (ORR) plays a key role in …

In order to enhance the kinetics of water electrolysis and reduce the cell voltage, the
development of highly active and stable non-precious metal bifunctional catalysts is …

Metal phthalocyanines (MPcs) are promising materials for electrochemical sensing due to
their physicochemical properties, including redox activity, structural versatility, and chemical …

Hydrogen production by water splitting has gained significant attention due to a rise in
demand for sustainable hydrogen fuel. In the present study, we report the synthesis of a …

Water is the most convenient and facile fossil-free source for the production of hydrogen
(H2). Electrochemical water splitting is considered a promising and potential approach for …

Efforts to create cost-effective electrocatalysts from abundant materials, for the utilization of
water electrolysis reactions, are viewed as promising sources for sustainable clean energy …