Methanol-assisted water-splitting reaction for green hydrogen generation is more
competitive to the traditional water electrolysis driven by sustainable energies due to the …

The global pursuit of sustainable energy solutions has led to an increased interest in green
hydrogen as a significant contributor to the transition towards a low-carbon economy. This …

Bi-functional electrocatalysts for acid overall water splitting reactions are crucial but still
challenging to the development of proton exchange membrane water electrolysis. Herein …

A thorough comprehension of the mechanism underlying the methanol oxidation reaction
(MOR) on Ni-based catalysts is critical for future electrocatalytic design and development …

The strong metal-support interaction inducing combined effect plays a crucial role in the
catalysis reaction. Herein, we revealed that the combined advantages of MoSe 2, Ru, and …

With increasing energy demands and environmental issues, renewable energy‐related
conversion systems have gained significant attention as a potential substitute for traditional …

CoFe 2 O 4 is a very promising platform to catalyze oxygen evolution reaction (OER).
Herein, the largely enhanced intrinsic performance of CoFe 2 O 4 derived from the ZIF-67 for …

The rational design of effective bifunctional electrocatalysts is of paramount importance for
overall water-splitting technology in sustainable energy conversion. Herein, bimetallic oxide …

Owing to the elusive pathways of methanol oxidation reaction (MOR) and the lack of
applicable catalysts, the selective electro-oxidation of methanol to formate remains a …

Transferring urea-containing waste water to clean hydrogen energy has received increasing
attention, while challenges are still faced in the sluggish catalytic kinetics of urea oxidation …