Indubitably, hydrogen demonstrates sterling properties as an energy carrier and is widely
anticipated as the future resource for fuels and chemicals. Herein, an updated assessment …

Glycerol, as a byproduct of biodiesel production, can be used to produce a variety of high-
value C1, C2, and C3 chemicals by electrocatalytic glycerol oxidation reaction (EGOR) …

Formic acid, a safe and widely available organic compound, produces hydrogen under mild
conditions, with the existence of Pd-based catalysts. Efficiently generating hydrogen via …

As complex and difficult-to-degrade persistent organic pollutants (POPs), antibiotics have
caous damage to the ecological enused serivironment. Because of the difficult degradation …

Renewable energy-driven bicarbonate conversion to valuable chemicals presents an
attractive strategy for mitigating CO 2 emissions, as bicarbonate can be efficiently generated …

The urgent need for sustainable energy solutions and greenhouse gas mitigation has driven
extensive research into advanced materials and technologies. This review provides an …

The development of structured catalyst supports to promote chemical process intensification
is of great interest, and porous activated carbon (AC) is an excellent material to overcome …

In this study, palladium is proposed as an active site for formic acid dehydrogenation
reaction. Pd activity was modulated with Co metal with the final aim of finding a synergistic …

Building a sustainable society requires efficient chemical storage of hydrogen and facile on-
demand generation. In this work, hydrogen is spontaneous generated from reforming …

The CO 2 transfer hydrogenation with bio-glycerol over a Ni-zeolite was systematically
studied to produce formic and lactic acids. The alkaline hydrothermal reactions without a …