Info
Info
search:

< Page of 6456 >

Technology News


Tuesday 31st January 2017
Dr Anita Ho-Baillie with perovskite cell.
Monday 3rd October 2016
An article in Advanced Materials, authored by ICN2 researchers Dr Amador Pérez-Tomás, Prof Mónica Lira-Cantú and ICREA Prof Gustau Catalan, reports the largest photovoltaic field ever observed in a photovoltaic device.
Monday 12th September 2016
A flexible semiconductor for electronics, solar technology and photo catalysis
Tuesday 30th August 2016
Using a heat-resistant device, made of tungsten and alumina layers, researchers from Aalborg University have found that the device can absorb the sun’s broad spectrum radiation and convert it to electricity.
Tuesday 23rd August 2016
Hongrui Jiang inspects the alignment of a light source to illuminate new-generation lateral solar cells. The solar cells developed by Jiang’s group harvest almost three times more electricity from incoming light as compared to existing technologies. Photo: Stephanie Precourt - See more at: http://news.wisc.edu/tiny-high-performance-solar-cells-turn-power-generation-sideways/#sthash.zzyID6fP.dpuf Hongrui Jiang inspects the alignment of a light source to illuminate new-generation lateral solar cells. The solar cells developed by Jiang’s group harvest almost three times more electricity from incoming light as compared to existing technologies. Photo: Stephanie Hongrui Jiang inspects the alignment of a light source to illuminate new-generation lateral solar cells. The solar cells developed by Jiang’s group harvest almost three times more electricity from incoming light as compared to existing technologies. Photo: Stephanie Precourt - See more at: http://news.wisc.edu/tiny-high-performance-solar-cells-turn-power-generation-sideways/#sthash.zzyID6fP.dpuf
Monday 18th July 2016
While all research in traditional photovoltaics faces the same underlying theoretical limitations, MIT PhD student David Bierman says, “with solar thermal photovoltaics you have the possibility to exceed that.” In fact, theory predicts that in principle this method could more than double the theoretical limit of efficiency, potentially making it possible to deliver twice as much power from a given area of panels.Photo courtesy of MIT.
Thursday 14th July 2016
Graphene quantum dots can improve the efficiency of silicon solar cells.
Thursday 14th July 2016
Stanford scientists improve perovskite solar-cell absorbers by giving them a squeezeTop: A normal perovskite crystal (left) bends and twists after being squeezed between two diamonds. Bottom: The orange perovskite crystal changes colour as pressure is applied, indicating that different wavelengths of light are being absorbed. (Image credit: Adam Jaffe and Yu Lin)
Thursday 7th July 2016
Three types of large-area solar cells made out of two-dimensional perovskites. At left, a room-temperature cast film; upper middle is a sample with the problematic band gap, and at right is the hot-cast sample with the best energy performance. Image courtesy Los Alamos National Laboratory.
Wednesday 27th April 2016
Tuesday 26th April 2016
New research shows nanowires made from gallium arsenide and composed of different crystal structures are formed.
Tuesday 26th April 2016
Oak Ridge National Laboratory scientists combined imaging techniques to measure crystallization kinetics of perovskite films following exposure to a mixed halide vapor. Over time, extra halide reactants settle in the film's grain boundaries, demonstrating atomic competition in crystal growth.

×
Search the news archive

To close this popup you can press escape or click the close icon.
Logo
×
Logo
×
Register - Step 1

You may choose to subscribe to the Solar + Power Magazine, the Solar + Power Newsletter, or both. You may also request additional information if required, before submitting your application.


Please subscribe me to:

 

You chose the industry type of "Other"

Please enter the industry that you work in:
Please enter the industry that you work in:
 
X
Info
X
Info