The Power of Solar: 35% of US Manufacturing Could Be Powered by Rooftop Solar Panels
Solar panels installed on the roofs of industrial buildings have the potential to satisfy the entire electricity needs of up to 35% of American manufacturers….
Solar panels installed on the roofs of industrial buildings have the potential to satisfy the entire electricity needs of up to 35% of American manufacturers….
Researchers have resolved the mechanism of exciton fission, which could increase solar-to-electricity efficiency by one-third, potentially revolutionizing photovoltaic technology. Photovoltaics, the conversion of light to…
ESA has signed contracts for two parallel concept studies for commercial-scale Space-Based Solar Power plants, representing a crucial step in the Agency’s new SOLARIS initiative…
Some materials convert photons into more free charges than would be expected. Using an ultrafast film, researchers have now been able to get a picture…
Researchers at Newcastle University have created eco-friendly, high-efficiency photovoltaic cells for powering IoT devices using ambient light, achieving 38% power conversion efficiency. They also introduced…
Current solar panels are inefficient and contain toxic materials, a different approach that harnesses plant molecules like chlorophyll could lead to improvements. Our current solar…
Creating an efficient, cost-effective, and flexible solar energy harvesting design based on self-assembled nanoparticles. Solar-thermal technology is a promising environmentally friendly energy harvesting method with…
Wirelessly powered large-area electronics could enable a cheaper and greener internet of things. Emerging forms of thin-film device technologies that rely on alternative semiconductor materials,…
Using enhanced halide perovskite in place of silicon could produce less expensive devices that stand up better to light, heat. Amid all of the efforts…
Solar power could be gathered far away in space and transmitted wirelessly down to Earth to wherever it is needed. The European Space Agency (ESA)…
Technology capable of collecting solar power in space and beaming it to Earth to provide a global supply of clean and affordable energy was once…
An extra metal fluoride layer enables charge separation and boosts performance in perovskite–silicon tandem solar cells. Inserting a metal fluoride layer in multilayered perovskite–silicon tandem…
This family of crystalline compounds is at the forefront of research pursuing alternatives to silicon. Perovskites have great potential for creating solar panels that could…
Photovoltaics may be more practical for long stays on Mars thanks to today’s light, flexible solar panels. According to new research by scientists at the…
New solar cell devices that are cheaper and easier to make could soon make their way to market thanks to materials made at Imperial College…
The researchers behind an energy system that makes it possible to capture solar energy, store it for up to eighteen years, and release it when…
A German research team has developed a tandem solar cell that reaches 24 percent efficiency – measured according to the fraction of photons converted into…
Solar energy generation keeps on becoming cheaper and more efficient, but some basic limitations will always apply: solar panels can only generate power during the…