The copper–chlorine (Cu–Cl) thermochemical cycle represents a promising pathway for sustainable hydrogen generation by utilising high‐temperature heat sources to drive endothermic reactions that split ...

Hydrogen production via thermochemical cycles represents a forefront area in sustainable energy research, employing high-temperature chemical reactions to split water into hydrogen and oxygen without ...

As the world shifts toward sustainable energy sources, "green hydrogen"—hydrogen produced without emitting carbon—has emerged as a leading candidate for clean power. In a significant step forward, a ...

Existing solar thermochemical hydrogen production systems have low efficiency, but MIT's design could harness up to 40% of solar heat for hydrogen generation. The breakthrough system relies solely on ...

Scientists in the United States have proposed to use a thermochemical energy storage (TCES) technique that stores energy in chemical bonds to recover the heat produced during air compression ...

The Company’s ThermoLoop technology relies on a paradigm shift to use inexpensive heat and water to potentially produce the world’s cheapest green hydrogen SANTA CLARITA, Calif., March 11, 2025 (GLOBE ...

Using a new 3D printing technique, researchers have developed special ceramic structures for a solar reactor. Initial experimental testing show that these structures can boost the production yield of ...

As the world shifts toward sustainable energy sources, 'green hydrogen' - hydrogen produced without emitting carbon - has emerged as a leading candidate for clean power. Scientists have now developed ...