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Chemistry World
February 6, 2006
Jon Evans |
Head-to-Tail Monomers Improve Solar Cell Efficiency A team of researchers found that the P3HT polymer chains stacked together more tightly in high RR films, which made them absorb more light and let electrons travel more easily through them.   |
Technology Research News
December 29, 2004 |
Solar Cell Teams Plastic and Carbon Researchers have fabricated an inexpensive, plastic-based solar cell that has the potential to be fairly efficient |
Chemistry World
October 2007
Philip Ball |
The Crucible Feel free to make photovoltaics better. But don't forget they have to be cheaper, too. |
IEEE Spectrum
July 2007
Suhas Sreedhar |
Plastic Solar Cells Get a Boost by Doubling Up Scientists in Korea and California have invented a new way of boosting the efficiency of cheap plastic solar cells, making them more competitive with traditional silicon solar cells. The key is to make the solar cells in pairs. |
Technology Research News
December 1, 2004
Kimberly Patch |
Solar Cell Doubles as Battery Scientists have designed a single, compact device that can both convert solar energy to electricity and store the electricity. |
Chemistry World
June 17, 2010
Hayley Birch |
Keeping the heat up for super-efficient solar cells US scientists have found a way to siphon off the 'hot' electrons that are responsible for much of the energy lost in current solar cells. |
Technology Research News
March 12, 2003
Kimberly Patch |
Cheap solar power on deck Researchers from the University of California at Santa Barbara have come up with a new type of solar cell that may be much less expensive to manufacture than today's solar cells and can be improved to be nearly as efficient. |
Scientific American
December 2008
Jesse Emspak |
Chasing Rainbows: Full-Spectrum Photovoltaics From infrared to ultraviolet, a new photovoltaic material responds to the full spectrum of sunlight |
Chemistry World
August 8, 2011
Rebecca Brodie |
A Solar Torch to Fit in Your Back Pocket A solar powered torch the size of a credit card has been developed by a team of scientists from Denmark, the Netherlands and the US. |
Chemistry World
January 31, 2007
Ned Stafford |
Making Light Work The photovoltaic industry is nearing a breakthrough point, beyond which production capacity will soar, offering consumers a wide variety of options at much lower prices. |
IEEE Spectrum
October 2007
Neil Savage |
Nanowire Silicon Solar Cell for Powering Small Circuits A new type of solar cell made from a nanometer-scale wire might one day provide an on-chip power source for nanoelectronic devices or run microscopic robots, say scientists. |
Chemistry World
May 1, 2009
Michael Gross |
Efficient solar cells could work in tandem Researchers in Sweden have more than doubled the efficiency of a dye-based solar energy device. |
Technology Research News
May 19, 2004
Kimberly Patch |
Solar Crystals Get 2-for-1 Ordinary solar cells are designed to generate one electron for every photon they absorb. Solar cells made from nanocrystals open another possibility -- two electrons for every photon -- that promises to boost the potential amount of energy that can be harvested from the sun. |
Technology Research News
December 31, 2003 |
Electroplating boosts solar cells While not yet ready for practical use, researchers find that including titania in solar cell dyes can increase efficiency. |
Chemistry World
January 21, 2009
Alexander Hellemans |
Quantum shuttling boost for organic solar cells Organic polymers can use a quantum effect to rapidly shuttle light energy along their chains, even at room temperature. |
Chemistry World
January 19, 2012
Rebecca Brodie |
Efficiently harvesting the power of the sun Scientists from Japan and India have created a dye-sensitised solar cell with the highest recorded efficiency of 11.4%, breaking the record set five years ago. |
Chemistry World
April 4, 2010
Simon Hadlington |
New electrolyte for dye-based solar cells Researchers have moved a step closer to overcoming one of the key hurdles to developing low-cost solar cells based on dye-coated titanium dioxide. |
Technology Research News
December 11, 2002
Kimberly Patch |
Material soaks up the sun The semiconductor indium nitride got a raw deal a few decades back when it was misclassified as a mediocre photovoltaic. It turns out the stuff could be a champ at changing sunlight into electricity. If all goes according to plan, indium nitride will make for more efficient solar cells. |
Chemistry World
April 19, 2012
Charlie Quigg |
An invisible menace for solar cells US chemists have shown that trace impurities - below the sensitivity of standard characterization techniques - can halve the efficiency of bulk heterojunction solar cells. |
Chemistry World
May 5, 2010
Phillip Broadwith |
Nanoholes promise solar power Silicon solar cells with arrays of nano-sized holes could outperform their nanowire-based rivals, say Chinese chemists. |
Chemistry World
September 2, 2014
Jon Cartwright |
Flexible solar cell woven into fabric There could soon be a way to power wearable electronics indefinitely, now that scientists in China have developed a solar cell 'textile' that could be woven into clothes. |
Technology Research News
April 21, 2004
Kimberly Patch |
Material Grabs More Sun Silicon solar cells capture only some of the spectrum of sunlight, limiting their efficiency. A mix of several metals and oxygen could lead to solar cells that capture much more sunlight. The key is misaligning the material's crystal structure by infusing it with oxygen atoms. |
National Defense
March 2012
Eric Beidel |
Scientists Make Quantum Leap in Solar Power In its quest for alternative sources of power, the military has been turning to solar panels. The services have been trying them out on installations and on the backs of troops. |
National Defense
August 2008
Grace V. Jean |
Harnessing the Sun's Energy Through Transparent Photovoltaics Researchers here have developed a small transparent solar cell prototype that may one day capture sunlight streaming in through a window and produce enough electricity to power homes and office buildings. |
BusinessWeek
September 6, 2004
Otis Port |
Another Dawn For Solar Power Tech breakthroughs and high energy prices are rekindling the industry. |
Chemistry World
January 7, 2016
Matthew Gunther |
Stable caesium-doped perovskites boost silicon solar cells The caesium-doped lattice also has the potential to increase the efficiency of a conventional silicon solar cell when placed on top. |
IEEE Spectrum
August 2008
Richard Stevenson |
First Solar: Quest for the $1 Watt Within five years, this company's thin-film solar cells could compete with coal |
IEEE Spectrum
August 2011
Neil Savage |
Solar Cell Breaks Efficiency Record Recycling photons raises the energy output. |
IEEE Spectrum
February 2010
Edward H. Sargent |
Infrared Optoelectronics You Can Apply With a Brush Infrared quantum dots will lead to cheaper photovoltaic cells. When the fabrication of optoelectronic devices becomes almost as easy as splashing paint on a canvas, our assumptions about the high cost of high-performance optoelectronic devices will be turned on its head. |
Chemistry World
June 27, 2011
Catherine Bacon |
A Step Forward for Space Power US scientists have gained insights into how to improve polymer solar cells' stability in space to power shuttles. |
IEEE Spectrum
April 2008
Peter Fairley |
Solar-Cell Squabble Organic photovoltaics could be dirt cheap, but their efficiency is in dispute |
Chemistry World
February 19, 2013
Andy Extance |
Insulator pile shows solar potential Stacks of insulating transition metal oxides could effectively convert sunlight into electricity. A team in Austria, has calculated that layering LaVO 3 on a SrTiO 3 base could also deliver advantages conventional semiconductors can't. |
Chemistry World
January 21, 2009
Simon Hadlington |
Electron-conducting polymer for printed electronics The prospect of powerful electronic circuits made from printable plastics has moved a step closer with the discovery of a cheap, stable organic polymer semiconductor |
Technology Research News
August 25, 2004 |
Photosynthesis Drives Solar Cell Researchers have mixed biology and electronics in solar cells that use photosynthetic spinach leaf molecules or photosynthetic bacteria to convert light to electricity. |
Chemistry World
November 5, 2013
Jason Woolford |
Hole hopping in solar cells Researchers in the UK, Spain and Switzerland say a method they have developed for probing electron transfer reactions could help them design more efficient solar cells. |
Chemistry World
September 13, 2006
Mark Peplow |
Solar Cells Reach Into the Infrared A dye molecule that efficiently harvests the energy of near infrared light could boost the output from the next generation of solar cells. |
Chemistry World
November 25, 2015
Jon Cartwright |
Perovskite boosts silicon solar cell efficiency A UK company claims it can boost the efficiency of a silicon solar cell by 20% by adding a layer of the light-sensitive crystal perovskite. |
Chemistry World
June 28, 2011
Mike Brown |
Photosystems Made Using '3D Tetris' Scientists in Switzerland have designed self-sorted multicomponent surface architectures for supramolecular organic photosystems that are 40 times more active at generating electrical current from light energy than their single-component counterparts. |
Chemistry World
November 7, 2012
Simon Hadlington |
World's first all-carbon solar cell Researchers in the US and China have built a photovoltaic cell made entirely from carbon. The electrodes and light-active layers are made from a combination of three carbon allotropes -- nanotubes, fullerenes and graphene. |
The Motley Fool
August 5, 2010
Eric Wesoff |
Can a Disruptive PV Technology Topple First Solar? We list a few candidates for a "new black swan improbable pyro-nano-quantum-thingamajig technology" to displace thin-film PV. |
Technology Research News
October 8, 2003 |
Nanotubes harvest electrons Researchers from the University of Bologna and the University of Trieste in Italy, and the University of Notre Dame have found a way to alter carbon nanotubes so that they efficiently separate electrical charge. The method could lead to more efficient solar cells. |
Chemistry World
August 29, 2014
Simon Hadlington |
Rigid molecular wires make electrons fly Researchers in Germany and Japan have shown that a new type of organic molecular wire -- which is flat and rigid -- can transfer electrons at more than 800 times the speed of its conventional, flexible counterpart. |
IEEE Spectrum
June 2010
Peter Fairley |
GE Warms Up to Cadmium Solar Cells Plans to compete with First Solar and other leaders in 2011 |
Chemistry World
October 17, 2007
Lewis Brindley |
Shining a New Light on Nanowires Scientists have created tiny solar power cells using silicon nanowires 200 times thinner than a human hair. The cells could provide renewable energy for both nano- and large-scale applications. |
IEEE Spectrum
December 2012
Richard Stevenson |
Powerful PVs Approach 50 Percent Efficiency Start-up Solar Junction thinks it has the right recipe in a triple-cell scheme |
The Motley Fool
October 18, 2006
Jack Uldrich |
Sharp Magnifies Its Focus on Solar Four new initiatives could extend the company's manufacturing lead in solar cells. Investors interested in solar should keep an eye on the company. |
Chemistry World
May 3, 2011
James Urquhart |
Turning heat into electricity with polymers Swedish researchers have improved the thermoelectric efficiency of an organic conducting polymer by controlling the material's oxidation level, boosting the prospect of developing cheap, flexible and lightweight organic thermoelectric devices |
Technology Research News
March 10, 2004
Eric Smalley |
Red wine mends solar cells Researchers from the University of Toledo have found a way to increase energy production using red wine. |
Chemistry World
April 30, 2014
Tim Wogan |
High efficiency solar cells stack up A new high efficiency solar cell that is easier and potentially cheaper to produce than current designs has been demonstrated by US researchers. |
Chemistry World
March 20, 2006
Jon Evans |
Polymer Matches Silicon in Semi-Conductor Stakes Materials scientists have developed a semi-conducting polymer that, for the first time, conducts electricity at levels similar to conventional silicon-based semi-conductors. |
