SolPad: Bringing the Solar Technology in a Single Pack Updated On Fri, Sep 23rd, 2016 by Saurenergy Solar panels installed at the roof, while batteries placed at the garage or basement- that’s what a typical solar power system looks like. But things are about to change now. The SunCulture Solar, a four year old start-up, led by entrepreneur and inventor Christopher Estes seems eager to make the Solar Panels and Storage One. […] Read more
This Solar Cell is highly efficient and can harvests more of sun’s energy Updated On Mon, Sep 5th, 2016 by Saurenergy A team of researchers from MIT and the Masdar Institute of Science and Technology has developed new solar cell that includes two different layers of sunlight-absorbing material to harvest a broader range of the sun’s energy and that costs less than its counterparts. The researchers call the device a “step cell,” because the two […] Read more
Researchers have designed a device that is effective and offer low-cost solution for storing solar energy Updated On Mon, Aug 29th, 2016 by Saurenergy Solar energy can be stored by converting it into hydrogen. But current methods are too expensive and don’t last long. Researchers at EPFL and CSEM have designed a device using commercially available solar cells and none of the usual rare metals that outperforms in stability, efficiency and cost. One of the solutions to store solar […] Read more
Scientists At The Australian National University Set Solar Thermal Record Updated On Fri, Aug 19th, 2016 by Saurenergy Australian National University (ANU) scientists have set a world record for efficiency for a solar thermal dish generating steam that could be used for power stations. Scientists at ANU designed and built a new receiver for the solar concentrator dish, halving losses and achieving a 97 per cent conversion of sunlight into steam. This solar […] Read more
Researchers develops Tiny High-Performance Solar Cells That Turns Power Generation Sideways Updated On Mon, Aug 8th, 2016 by Saurenergy Engineers at the University of Wisconsin—Madison have developed high-performance, micro-scale solar cells that can harvest almost three times more electricity from incoming light as compared to existing technologies. According to the researchers the miniature solar panels could power myriad personal devices — wearable medical sensors, smartwatches, even autofocusing contact lenses. The new, small cells, described […] Read more
Korean Researchers Develop High-Efficiency Perovskite Solar Cells Updated On Fri, Jul 22nd, 2016 by Saurenergy A team of researchers led by Taiho Park at Pohang University of Science and Technology (POSTECH), Korea, has found a new method to improve not only the efficiency, but stability and humidity tolerance of perovskite solar cells. The Korean researchers designed a hydrophobic conducting polymer that has high hole mobility without the need of additives, […] Read more
New Studies exhibits the True Costs of Fossil Fuels & Value of Solar Photovoltaics Updated On Wed, Jul 20th, 2016 by Saurenergy Two new studies published in Review Journal (MRS E and S) MRS Energy and Sustainability, by Carol Olson and Frank Lenzmann emphasizes the true economic, social and environmental benefits of solar PV compared to fossil fuels, in regards to the supply chain of all relevant fuels. In their new studies, Authors Carol Olson and Frank […] Read more
FAU researchers develop new material that can increase the lifetime of organic solar cells considerably Updated On Tue, Jul 12th, 2016 by Saurenergy Organic solar cells are expected to replace standard silicon cells used in photovoltaics soon. The organic cells are thin, flexible and translucent and can be used as window glass or a design element by architects. A team of FAU researchers led by Prof. Dr. Christoph Brabec have achieved an important milestone in the quest to […] Read more
New architecture to produce an affordable solar cell Updated On Mon, Jun 27th, 2016 by Saurenergy Researchers have developed new architecture that can produce an affordable solar cell with efficiencies comparable to conventional silicon solar cells and takes very few processing steps. The new architecture uses unconventional, transparent materials that can be placed at room temperature – the process is currently used to increase the electrical conductivity of key surfaces in […] Read more