Japan is pushing solar hydrogen into a new phase by teaching its materials to drink in colors of sunlight that used to go to ...

This study presents a highly efficient approach to solar hydrogen production by pairing water electrolysis with the selective oxidation of biomass-derived glucose. Central to this advance is a ...

Scientists have simulated a solar-powered hydrogen production system comprising 32,050 photovoltaic panels, a pumping system, a seawater reverse-osmosis desalination unit, an electrolyzer, and a ...

A novel dye-sensitized photocatalyst developed at Science Tokyo enables the capture of long-wavelength visible light for ...

Scientists have simulated a residential building based on a real double-story house in the United Kingdom, combining rooftop agrivoltaics with onsite hydrogen production. Electricity generated by the ...

Michigan energy systems company Sesame Solar announced this week what it calls the world's first 100-percent renewable mobile nanogrid. Powered by both its wing-like solar panel spread and green ...

Hydrogen, the lightest element on the periodic table, is a master of escaping almost any container it's stored in. Its ...

A solar farm from BayWa r.e. in the UK. Octopus Hydrogen announced a green hydrogen partnership with BayWa r.e. earlier this year. Image: BayWa r.e. Curtailment is a rising threat to solar PV, ...

Hydrogen is a useful gas. Whether you want to float an airship, fuel a truck, or heat an industrial process, hydrogen can do the job. However, producing it is currently a fraught issue. While it can ...

The nanogrid’s solar array is electronically unfolded, and it’s ready to start generating power within 15 minutes. The company claims it can be set up by a single person. Depending on the model, as ...