Thermo-photo catalysis, which is the catalysis with the participation of both thermal and
photo energies, not only reduces the large energy consumption of thermal catalysis but also …

Methane (CH 4) is the major component of currently abundant natural gas and a prominent
green-house gas. Steam reforming of methane (SRM) is an important technology for the …

Abstract Methanol with 12.5 wt% H2 content is widely considered a liquid hydrogen medium.
Taking into account water with 11.1 wt% H2 content, H2 synthesis from the mixture of water …

The hydrogen economy is being pursued quite vigorously since hydrogen is an important
and green energy source with a variety of applications as fuel for transportation, fuel cell …

Methanol steam reforming (MSR) is a promising reaction that enables efficient production
and safe transportation of hydrogen, but it requires a relatively high temperature to achieve …

Methanol is a competitive candidate for in-situ hydrogen supply; however, the techniques of
methanol-to-hydrogen production are suffered from high reforming temperatures and …

Exploring efficient catalysts for hydrogen production from methanol steam reforming (MSR)
is quite challenge. Introducing a photosensitive material into conventional thermal catalysts …

Converting intermittent energies into green and storable chemical fuels (like hydrogen) is of
great importance to address the global energy crisis and environmental issues …

Copper-based catalysts have demonstrated notable efficacy in facilitating methanol
conversion and hydrogen yield at low temperatures. Given the straightforward and cost …

Methanol steam reforming (MSR) is considered as a promising approach to provide
hydrogen for proton-exchange membrane fuel cells. However, it is challenging to develop …