Researchers have revealed that semiconductor electrodes can achieve green hydrogen production. They found that ...

Scientists in Europe are developing a new PFAS-free way to produce green hydrogen using far less of the rare metal iridium.

Green hydrogen could be a game-changer for the clean energy transition—but right now, it’s too expensive and still relies on harmful “forever chemicals.” A new EU-backed project called SUPREME aims to ...

Some policymakers think that climate-friendly policies are impeding the adoption of green hydrogen. They should ask scientists to review the evidence.

As electronic and energy devices continue to shrink, traditional materials increasingly struggle with instability and loss of functionality at nanoscale dimensions.

The new funding will support pilot-scale manufacturing, customer validation, supply agreements, and expansion of engineering capacity ...

XINTC has introduced an advanced electrolyzer that uses polymer components to replace expensive metals, significantly ...

Chemistry professor lends his expertise to discuss the potential of green hydrogen to be used in the energy economy for ...

Hydrogen energy is on the rise, paving the way for investors eager to capitalize on this carbon-reducing, cost-effective alternative to traditional energy sources. Plug Power (PLUG), a company ...

Researchers at the Norwegian University of Science and Technology (NTNU) have investigated the effects of incorporating green hydrogen into the European power system and have found that deploying ...

Green hydrogen could help cut New Zealand's industrial emissions, but University of Auckland modeling suggests it's unlikely ...

A new method has been developed to extract hydrogen directly from natural gas fields by injecting steam, a catalyst, and oxygen, resulting in hydrogen and carbon monoxide that can be separated while ...