Green Energy
- Organic Solar Cells Reach Manufacturing Milestone
In an impressive feat of engineering, scientists in Denmark have devised a rapid, scalable and industrially viable way to manufacture large sheets of flexible organic tandem solar cells. Their successful application of roll-to-roll processing is...
- Organic Solar Cells
Heliatek GmbH announced a record breaking 12% cell efficiency for its organic solar cells, establishing a world record. In cooperation with the University of Ulm and TU Dresden, the solar cells were measured by the accredited testing facility SGS. The...
- Thin Film Solar Cells: New World Record For Solar Cell Efficiency
Article published on www.sciencedaily.com Jan. 18, 2013 — In a remarkable feat, scientists at Empa, the Swiss Federal Laboratories for Materials Science and Technology, have developed thin film solar cells on flexible polymer foils...
- Scientists Build The First All-carbon Solar Cell
article published in www.sciencedaily.com, October 31st 2012 Stanford University scientists have built the first solar cell made entirely of carbon, a promising alternative to the expensive materials used in photovoltaic devices today.The results...
- Researchers Create 'nanoflowers' For Energy Storage, Solar Cells
Article published on www.sciencedaily.com October 11, 2012 Researchers from North Carolina State University have created flower-like structures out of germanium sulfide (GeS) -- a semiconductor material -- that have extremely thin petals with an...
Green Energy
Record Efficiency for Next-Generation Solar Cells
Article published on www.sciencedaily.com/ July 29, 2012
ScienceDaily (July 29, 2012) — Researchers from the University of Toronto (U of T) and King Abdullah University of Science & Technology (KAUST) have made a breakthrough in the development of colloidal quantum dot (CQD) films, leading to the most efficient CQD solar cell ever. Their work is featured in a letter published inNature Nanotechnology.
The researchers, led by U of T Engineering Professor Ted Sargent, created a solar cell out of inexpensive materials that was certified at a world-record 7.0% efficiency.
"Previously, quantum dot solar cells have been limited by the large internal surface areas of the nanoparticles in the film, which made extracting electricity difficult," said Dr. Susanna Thon, a lead co-author of the paper. "Our breakthrough was to use a combination of organic and inorganic chemistry to completely cover all of the exposed surfaces."
Quantum dots are semiconductors only a few nanometres in size and can be used to harvest electricity from the entire solar spectrum -- including both visible and invisible wavelengths. Unlike current slow and expensive semiconductor growth techniques, CQD films can be created quickly and at low cost, similar to paint or ink. This research paves the way for solar cells that can be fabricated on flexible substrates in the same way newspapers are rapidly printed in mass quantities.
The U of T cell represents a 37% increase in efficiency over the previous certified record. In order to improve efficiency, the researchers needed a way to both reduce the number of "traps" for electrons associated with poor surface quality while simultaneously ensuring their films were very dense to absorb as much light as possible. The solution was a so-called "hybrid passivation" scheme.
"By introducing small chlorine atoms immediately after synthesizing the dots, we're able to patch the previously unreachable nooks and crannies that lead to electron traps," explained doctoral student and lead co-author Alex Ip. "We follow that by using short organic linkers to bind quantum dots in the film closer together."
Work led by Professor Aram Amassian of KAUST showed that the organic ligand exchange was necessary to achieve the densest film.
"The KAUST group used state-of-the-art synchrotron methods with sub-nanometer resolution to discern the structure of the films and prove that the hybrid passivation method led to the densest films with the closest-packed nanoparticles," stated Professor Amassian.
The advance opens up many avenues for further research and improvement of device efficiencies, which could contribute to a bright future with reliable, low cost solar energy.
According to Professor Sargent, "Our world urgently needs innovative, cost-effective ways to convert the sun's abundant energy into usable electricity. This work shows that the abundant materials interfaces inside colloidal quantum dots can be mastered in a robust manner, proving that low cost and steadily-improving efficiencies can be combined.
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- Organic Solar Cells Reach Manufacturing Milestone
In an impressive feat of engineering, scientists in Denmark have devised a rapid, scalable and industrially viable way to manufacture large sheets of flexible organic tandem solar cells. Their successful application of roll-to-roll processing is...
- Organic Solar Cells
Heliatek GmbH announced a record breaking 12% cell efficiency for its organic solar cells, establishing a world record. In cooperation with the University of Ulm and TU Dresden, the solar cells were measured by the accredited testing facility SGS. The...
- Thin Film Solar Cells: New World Record For Solar Cell Efficiency
Article published on www.sciencedaily.com Jan. 18, 2013 — In a remarkable feat, scientists at Empa, the Swiss Federal Laboratories for Materials Science and Technology, have developed thin film solar cells on flexible polymer foils...
- Scientists Build The First All-carbon Solar Cell
article published in www.sciencedaily.com, October 31st 2012 Stanford University scientists have built the first solar cell made entirely of carbon, a promising alternative to the expensive materials used in photovoltaic devices today.The results...
- Researchers Create 'nanoflowers' For Energy Storage, Solar Cells
Article published on www.sciencedaily.com October 11, 2012 Researchers from North Carolina State University have created flower-like structures out of germanium sulfide (GeS) -- a semiconductor material -- that have extremely thin petals with an...