While blue and green hydrogen dominate the low-carbon hydrogen conversation, turquoise hydrogen is quietly gaining momentum. Produced via methane pyrolysis, it delivers near-zero CO 2 emissions ...

Australian methane pyrolysis firm Hazer Group has completed a standardised turquoise hydrogen plant design with its ...

Researchers in South Korea have developed an advanced liquid metal catalyst incorporating selenium (Se) to enhance the efficiency of turquoise hydrogen production. Turquoise hydrogen is generated via ...

Exxon Mobil (XOM) and BASF (OTCQX:BASFY) (OTCQX:BFFAF) said Monday they have formed a strategic collaboration to co-develop methane pyrolysis technology, including plans to construct a demonstration ...

Focusing on methane pyrolysis to produce only turquoise hydrogen misses a major value stream from this technology. The way to make a methane pyrolysis business case stack up without subsidies is to co ...

An overview of the researchers’ continuous-flow reactor, which uses a technique known as floating catalyst chemical vapour deposition (FCCVD) to enable the continuous mass production of carbon ...

The catalytic decomposition of methane represents a dual‐benefit process whereby hydrogen is produced without the emission of CO₂ and elemental carbon is generated as a valuable by‐product. This solid ...

A new study describes how methane can be transformed into hydrogen and high-performance carbon nanotube materials. Study: Production of hydrogen and carbon nanotubes ...

Methane (CH4) pyrolysis, a reaction that produces hydrogen without emitting carbon dioxide, often utilizes molten media catalysts. A recent research paper has explored how artificial intelligence and ...

US supermajor ExxonMobil and German chemicals giant BASF have announced that they will partner on a methane pyrolysis pilot in the US that would produce so-called “turquoise” hydrogen. While “blue” ...