Abstract Molybdenum disulfide (MoS 2)-based materials as the non-noble metal catalysts
have displayed the potential capability to drive electrocatalytic hydrogen evolution reaction …

Develo** energy production, storage, and conversion technologies based on sustainable
or renewable energy is essential to address the energy and environmental crisis …

The scarcity of highly effective and economical catalysts is a major impediment to the
widespread adoption of electrochemical water splitting for the generation of hydrogen. MoS …

Using furfural (FA) as raw material to produce furan (FF) seems to be an efficient and
sustainable strategy. Herein, a catalyst (Co-Mo 2 C/CN) with Co-Mo 2 C heterostructure …

Electrocatalytic water splitting to generate high-quality hydrogen is an attractive renewable
energy storage technology; however, it is still far from becoming a real-world application. In …

Develo** novel electrocatalysts for efficient active hydrogen evolution reaction (HER) and
oxygen evolution reaction (OER) is crucial in improving water splitting efficiency. Derivatives …

The goal of global carbon peak and neutrality calls for the green production of hydrogen via
water electrolysis powered by renewables. Alkaline electrolysis cells (AEC) are receiving …

An efficient and durable free-standing electrocatalyst is the key to achieving pH-universal
hydrogen evolution reaction under ultra-high current density. Herein, the free-standing three …

Energy consumption associated with the catalysts contributes partly to the high ohmic
resistance arising from the low conductivity of the catalyst and poor charge transfer between …

Considering the abundant reserves of seawater and limited resources of freshwater,
seawater electrolysis is a more economically competitive technology for producing high …