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Archive for the ‘solar power’ category: Page 132

Jun 9, 2016

Scientists design energy-carrying particles called ‘topological plexcitons’

Posted by in categories: particle physics, solar power, sustainability

Scientists at UC San Diego, MIT and Harvard University have engineered “topological plexcitons,” energy-carrying particles that could help make possible the design of new kinds of solar cells and miniaturized optical circuitry.

The researchers report their advance in an article published in the current issue of Nature Communications.

Within the Lilliputian world of solid state physics, light and matter interact in strange ways, exchanging energy back and forth between them.

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Jun 7, 2016

New “Bionic Leaf” Is More Efficient Than Photosynthesis

Posted by in categories: cyborgs, food, solar power, sustainability, transhumanism

The latest of the bionic leaf. A little over a year ago reseachers made an amazing discovery on cell circuitry leaves. Here is more news from Harvard on their research on bionic leaves.


Harvard scientists designed a new artificial photosynthesis system that turns sunlight into liquid fuel, and it is already effective enough for use in commercial applications.

Here’s an alternative source of energy many have never heard of— bionic leaves.

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Jun 6, 2016

Tiny lasers on silicon means big things for electronics

Posted by in categories: computing, electronics, nanotechnology, quantum physics, solar power, sustainability

Silicon forms the basis of everything from solar cells to the integrated circuits at the heart of our modern electronic gadgets. However the laser, one of the most ubiquitous of all electronic devices today, has long been one component unable to be successfully replicated in this material. Now researchers have found a way to create microscopically-small lasers directly from silicon, unlocking the possibilities of direct integration of photonics on silicon and taking a significant step towards light-based computers.

Whilst there has been a range of microminiature lasers incorporated directly into silicon over the years, including melding germanium-tin lasers with a silicon substrate and using gallium-arsenide (GaAs) to grow laser nanowires, these methods have involved compromise. With the new method, though, an international team of researchers has integrated sub-wavelength cavities, the basic components of their minuscule lasers, directly onto the silicon itself.

To help achieve this, a team of collaborating scientists from Hong Kong University of Science and Technology, the University of California, Santa Barbara, Sandia National Laboratories and Harvard University, first had to find a way to refine silicon crystal lattices so that their inherent defects were reduced significantly enough to match the smooth properties found in GaAs substrate lasers. They did this by etching nano-patterns directly onto the silicon to confine the defects and ensure the necessary quantum confinement of electrons within quantum dots grown on this template.

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Jun 5, 2016

Chile is producing so much solar power, it’s giving it away for free

Posted by in categories: economics, solar power, sustainability

Market forces often produce strange quirks in the economic system, like the one we’re seeing in Chile this year: the country is producing so much solar power that it’s being sold for… nothing at all.

While it’s incredibly encouraging to see so much expansion in the country’s renewable energy output, this huge amount of supply does actually cause problems for the companies looking to invest in solar energy.

Solar capacity on Chile’s central power grid (called SIC or Sistema Interconectado Central) has more than quadrupled over the past three years to 770 megawatts – good news for the environment and customers paying their electricity bills.

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Jun 2, 2016

These Tiny Spacecraft Could Lead Us to Alpha Centauri

Posted by in categories: computing, military, robotics/AI, satellites, solar power, sustainability

Earlier this spring, Russian billionaire Yuri Milner casually announced his intention to develop spacecraft that can travel at up to 20 percent the speed of light and reach Alpha Centauri within twenty years. From the outset, it was clear that no humans would be making the warp jump—the mission will involve extremely lightweight robotic spacecraft. A new fleet of tiny satellites hints at what those future interstellar voyagers will look like and be capable of.

Meet Sprites: sticky note-sized devices that sure look like the result of the Pentagon’s long-anticipated floppy disk purge, but are in fact state-of-the-art spacecraft complete with solar cells, a radio transceiver, and a tiny computer. Later this summer, a Cornell-led project called Kicksat-2 will launch 100 of these puppies to the International Space Station. There, the satellites will spend a few days field-testing their navigational hardware and communications systems before burning up in orbit.

The project’s lead engineers, Zachary Manchester and Mason Peck, are on the advisory committee for Breakthrough Starshot, an ambitious effort to reach our nearest neighboring star system within a generation. (In fact, the potato chip-sized computer Milner held up during a highly publicized press conference in April was Manchester’s own design.) Sprites, and the “chipsat” technology they’re based on, are a step toward that goal of interstellar travel. More generally, they’re an indication of the future of space exploration.

Continue reading “These Tiny Spacecraft Could Lead Us to Alpha Centauri” »

Jun 1, 2016

Jeff Bezos thinks we need to build industrial zones in space in order to save Earth

Posted by in categories: solar power, space, sustainability

It’s about solar power.

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May 27, 2016

Light Can ‘heal’ Defects in New Solar Cell Materials

Posted by in categories: electronics, nanotechnology, particle physics, solar power, sustainability

A family of compounds known as perovskites, which can be made into thin films with many promising electronic and optical properties, has been a hot research topic in recent years. But although these materials could potentially be highly useful in applications such as solar cells, some limitations still hamper their efficiency and consistency.

Now, a team of researchers at MIT and elsewhere say they have made significant inroads toward understanding a process for improving perovskites’ performance, by modifying the material using intense light. The new findings are being reported in the journal Nature Communications, in a paper by Samuel Stranks, a researcher at MIT; Vladimir Bulovic, the Fariborz Maseeh (1990) Professor of Emerging Technology and associate dean for innovation; and eight colleagues at other institutions in the U.S. and the U.K. The work is part of a major research effort on perovskite materials being led by Stranks, within MIT’s Organic and Nanostructured Electronics Laboratory.

Tiny defects in perovskite’s crystalline structure can hamper the conversion of light into electricity in a solar cell, but “what we’re finding is that there are some defects that can be healed under light,” says Stranks, who is a Marie Curie Fellow jointly at MIT and Cambridge University in the U.K. The tiny defects, called traps, can cause electrons to recombine with atoms before the electrons can reach a place in the crystal where their motion can be harnessed.

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May 25, 2016

New Printable Solar Panels Are Ready To Hit The Market!

Posted by in categories: solar power, sustainability

Australian solar technicians with the Victorian Organic Solar Cell Consortium have announced that they will soon put a new printable solar cell technology on the market.

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May 25, 2016

Large-scale technique to produce quantum dots

Posted by in categories: electronics, quantum physics, solar power, sustainability

Nice new method in producing Q-Dots which seems to be more cost effective, efficient and reliable.


Large-scale technique to produce quantum dots.

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May 25, 2016

Nanotechnology could enable use of Solar Energy at night

Posted by in categories: nanotechnology, solar power, sustainability

Using the power of nano to solar power our homes at night.


MIT researchers have built a new experimental solar cell which could greatly enhance power efficiency. The “Shockley-Queisser’ limit is the estimated maximum efficiency of a solar cell, which is commonly about 32%; that means almost 70% of energy is wasted in the form of heat.

One way to reduce energy loss is by stacking cells. However if sunlight could be turned into heat and then be re-emitted as light, the solar cells could utilize more energy. Solar cells work best with visible light which occurs midway of the radiation spectrum. As a result the radiations with shorter and greater wavelengths usually go to waste.

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