The electric breakthrough of solar cells cannot be ascribed to the surface
preparation as has now been demonstrated by physicists at the University of
Leipzig and the company Q-Cells SE in Bitterfeld-Wolfen.
In a few years, photovoltaic solar energy will have become a competitive energy source in major markets in the world. Without the need for subsidies. This will be the start of a revolution in the world’s energy sup...
A new ink developed by researchers at the University of Illinois allows them to write their own silver linings.
The ink, composed of silver nanoparticles, can be used in electronic and optoelectronic applications to ...
Applied Materials,
Inc. today conducted a simulation of the "carbon-free" transportation
of the future at its Silicon Valley research campus, connecting battery-operated
vehicles into the electrical grid utilizing energy generated by the company's
parking lot-based solar array.
Auro UK Natural Paints
are pleased to announce the launch of their new look label that incorporates
Ethical Consumer Magazine’s new ‘Best Buy” logo.
Researchers have developed a novel thin-film coating providing an unparalleled
level of surface
passivation of crystalline silicon solar cells.
Questions about the ability to increase the energy output of solar cells have
prompted Los Alamos National Laboratory researchers to reassess carrier multiplication
in extremely small semiconductor particles.
Dow Corning
Corporation announced an agreement to purchase more than 14,000 megawatt
hours of wind generated renewable energy through Consumers Energy’s Green
Generation program, making Dow Corning one of the largest private purchasers
of renewable energy in the State of Michigan.
University of Utah
physicists and chemists developed a new method that uses a mirror of tiny silver
"nanoparticles" so microscopes can reveal the internal structure of
nearly opaque biological materials like bone, tumor cells and the iridescent
green scales of the so-called "photonic beetle."
The discovery that butterfly wings have scales that act as tiny solar collectors has led scientists in China and Japan to design a more efficient solar cell that could be used for powering homes, businesses, and other applications in the future.
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