Seawater electrolysis with CO2 injection enables sustainable synthesis of carbon-trapping minerals like CaCO3 and Mg(OH)2.

Designed a "core-shell structure catalyst" using cost-effective ruthenium to improve its potential for commercialization.

Cement manufacture is a huge carbon emitter. A by-product of splitting seawater might make the process more environmentally friendly.

Box: Talent promotion at Empa The Empa Young Scientist Fellowship is a funding program for exceptionally talented young scientists. Fellows receive funding to carry out an independent research project ...

In particular, water electrolysis is considered a promising technology that can produce hydrogen without carbon dioxide (CO 2 ...

A Korean research team has successfully developed an advanced electrochemical catalyst. This innovation is expected to lead ...

To address climate change and environmental pollution, clean hydrogen production technologies are gaining attention. In particular, water electrolysis ...

Each year, billions of tons of carbon dioxide and other greenhouse gases are released into the atmosphere by the burning of ...

The new ruthenium core-shell catalyst sets a benchmark in hydrogen production, combining high efficiency with reduced ...