Japanese researchers have developed a palladium-based nanosheet catalyst that they claim could produce hydrogen at a fraction ...

When two hydrogen atoms get close enough, the electron from each atom feels an attraction from the proton in the other atom's nucleus. This attraction pulls the atoms together. The electrons end up ...

Two experiment collaborations, the g2p and EG4 collaborations, combined their complementary data on the proton's inner ...

The picture shows a close-up of one carbon atom. A hydrogen atom has one proton as the nucleus and one electron in the region outside the nucleus. The electron and proton are attracted to each other.

The close arrangement of functional molecules within the polymer network enabled efficient electron transfer, resulting in significantly higher quantum efficiency for hydrogen generation than in ...

Japanese scientist's new hydrogen energy breakthrough replaces expensive platinum, drastically reducing the cost of clean ...

is a critical process for hydrogen generation. However, the limited ability of electrons and protons to permeate the membrane and the inefficient arrangement of the transport structure in the ...

Hydrogen energy is widely recognized as a sustainable source for the future, but its large-scale production still relies on expensive and scarce platinum-based catalysts. In order to address this ...

Novel bis(diimino)palladium nanosheets offer platinum-like efficiency for hydrogen evolution, paving the way for affordable, ...

How can we produce clean hydrogen without burning fossil hydrocarbons or other non-renewable energy sources? We can do so ...