Radically simple technique developed to grow conducting polymer thin films
(PhysOrg.com) -- Oil and water don't mix, but add in some nanofibers and all bets are off.
(PhysOrg.com) -- Oil and water don't mix, but add in some nanofibers and all bets are off.
Nanomaterials
Nov 1, 2010
1
0
Iron pyrite - also known as fool's gold - may be worthless to treasure hunters, but it could become a bonanza to the solar industry. The mineral, among the most abundant in the earth's crust, is usually discarded by coal ...
Energy & Green Tech
Jan 21, 2011
3
0
The importance of silicon for almost every element in modern-day electronic devices and computers is due largely to its crystalline atomic structure. Crystalline silicon, however, is much more expensive to produce than its ...
Optics & Photonics
Mar 4, 2011
1
0
A bold new design for thin film solar cells that requires significantly less silicon and may boost their efficiency is the result of an industry/academia collaboration between Oerlikon Solar in Switzerland and ...
Condensed Matter
May 6, 2011
0
0
If solar cells could generate higher voltages when sunlight falls on them, they'd produce more electrical power more efficiently. For over half a century scientists have known that ferroelectrics, materials whose atomic structure ...
General Physics
Sep 15, 2011
7
0
One of the major challenges in the world today is the energy crisis. The high demand and low supply of fossil fuel are driving up oil and food prices. Silicon-based solar cells are one of the most promising technologies for ...
Nanomaterials
May 30, 2011
2
0
SLAC and Stanford researchers have developed a new, printing process for organic thin-film electronics that results in films of strikingly higher quality.
Nanophysics
Jun 2, 2013
0
0
A new study by a team including scientists from the National Institute of Standards and Technology (NIST) indicates that thin polymer films can have different properties depending on the method by which they are made. The ...
Soft Matter
May 3, 2012
0
0
Solar cells that are more effective and cost less in production: Within the EU-project N2P (Nano to Product) researchers developed nano tuned surfaces to gain both.
Nanomaterials
May 18, 2011
0
0
Australian researchers have demonstrated the strong potential for a new type of flexible, recyclable electrodes to be used in creating cheaper solar cells, touchscreens, wearable 'e-skins' and next-generation responsive windows.
Nanomaterials
Jun 10, 2020
0
168