Hydrogen is a colorless gas. But if you’ve done any reading about the future of energy, you’ve likely seen it identified by a number of different colors—ranging from turquoise and aqua to green, ...

Blue hydrogen production is gaining traction, with announcements of large-scale projects, funding, and government support worldwide. According to IDTechEx's analysis, the blue hydrogen market will be ...

Blue hydrogen refers to the production of hydrogen from fossil fuels, mostly through natural gas reforming or coal gasification, in which most CO 2 emissions are captured and stored or used in ...

University of Birmingham researchers have developed a perovskite catalyst that enables thermochemical water-splitting at temperatures 900°F lower than current methods. The innovation could make ...

University of Birmingham researchers have developed a perovskite catalyst that enables thermochemical water-splitting at temperatures up to 500°C lower than current methods. The breakthrough could ...

It’s the simplest element known to mankind, and yet the industrial web enveloping it is growing more and more complex. Hydrogen, consisting of only one proton and one electron, is a widely used ...

Hydrogen can play a key role in Australia’s energy transition by giving us additional ways of storing and moving energy around. As the world shifts towards cleaner energy production, there’s a push to ...

Of the seven hydrogen hubs announced earlier in October, two plan to use exclusively renewable energy and the other five will use a combination of renewables, nuclear power, and natural gas with ...

Forbes contributors publish independent expert analyses and insights. Ian writes on fossil energies, climate, and transition to renewables. The most prominent use of liquid hydrogen is for ...