Post Profile






Tiny crystals and nanowires could join forces to split water

Scientists are pursuing a tiny solution for harnessing one of the world's most abundant sources of clean energy: Water.
read more

share

Related Posts


Clean Energy Breakthrough Could Turn Estuaries Into Power Stations

News : Newsweek: US

River mouths around the world may soon provide an abundant new source of clean energy after scientists developed an efficient system to generate electricity from salt water. Research published this week in the journal Nature outline...

Clean energy future: New cheap and efficient electrode for splitting water

Academics / General Science : ScienceDaily: Science Society

Scientists have developed a highly efficient oxygen-producing electrode for splitting water that has the potential to be scaled up for industrial production of the clean energy fuel, hydrogen. The new technology is based on an inexp...

The crystal's corners: New nanowire structure has potential to increase semiconductor applications

Academics / General Science : Science Codex

There's big news in the world of tiny things. New research led by University of Cincinnati physics professors Howard Jackson and Leigh Smith could contribute to better ways of harnessing solar energy, more effective air quality sens...

Nanotrees harvest the sun's energy to turn water into hydrogen fuel

Academics / General Science : ScienceDaily: Science Society

Electrical engineers are building a forest of tiny nanowire trees in order to cleanly capture solar energy without using fossil fuels and harvest it for hydrogen fuel generation. The team said nanowires, which are made from abundant...

Tiny crystals and nanowires could join forces to split water

Academics / General Science : EurekAlert: Technology Engineering

(University at Buffalo) Scientists are pursuing a tiny solution for harnessing one of the world's most abundant sources of clean energy: water. By marrying teeny crystals called quantum dots to miniature wires, the researchers are d...

Comments


Copyright © 2016 Regator, LLC