A research team has developed a composite catalyst using the novel material MXene that suppresses the generation of chloride ions—one of the key challenges in seawater electrolysis. This research ...

As automakers push toward a zero-emission future, hydrogen is once again in the spotlight, not just as a clean-energy ...

A review reimagines solar-driven water electrolysis not as a mere hydrogen production technology but instead as a relatively ...

To address this, a research team led by Assistant Professor Haeseong Jang at Chung-Ang University and Professor Xien Liu at Qingdao University of Science and Technology, developed a robust and ...

Under this partnership, Thermax will leverage its extensive experience in heat integration and waste heat recovery to manufacture a first-of-its-kind pressurised SAM and design, engineer, and develop ...

A team led by Prof. Yin Huajie from the Hefei Institute of Physical Science of the Chinese Academy of Sciences has developed ...

Seawater electrolysis holds immense promise as a means to decarbonize the global energy sector. However, challenges such as anode corrosion by chloride ions, unwanted chloride oxidation reactions, and ...

Designing optimized catalysts that use least amount of iridium has been a challenge. Water electrolysis offers an ideal process for hydrogen production, which could play a key role in the global ...

In last year’s Global Hydrogen Report, the IEA projected that global production of low-emissions hydrogen would grow to as ...

The hybrid sulfur cycle, integrating thermal and electrochemical processes, has emerged as a promising route for sustainable hydrogen production with minimal carbon emissions. At its core, the process ...

PUNE, India--(BUSINESS WIRE)--Thermax, a leading energy and environment solutions provider and a trusted partner in energy transition, has announced a strategic collaboration with Ceres Power Holdings ...