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Archive for the ‘energy’ category: Page 345

Dec 6, 2015

60 Minutes On This Bicycle Can Power Your Home For 24 Hours

Posted by in categories: energy, habitats

Would you exercise for an hour every day if the workout powered your home for twenty-four hours?

People often complain about the high costs of energy and the fact that they “never have time to workout.” This invention certainly solves both conundrums.

And, most importantly, this free power invention has the potential to lift the 1.3 billion people who presently live without electricity out of poverty.

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Dec 4, 2015

Here’s a Peek at the First Sodium-ion Rechargeable Battery

Posted by in categories: energy, materials

Ubiquitous sodium could replace rare lithium in rechargeable batteries, French researchers show. And it could make batteries A LOT cheaper.


Will sodium replace lithium as the material of choice for rechargeable batteries?

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Dec 2, 2015

A Big Win for Cheap, Clean Energy — By Bill Gates | The Gates Notes

Posted by in categories: business, energy, environmental, innovation, science

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Nov 29, 2015

Diamond nanothread rivals graphene as the next big wonder material

Posted by in categories: energy, materials

For some time now, graphene has been the wonder material that scientists have been most excited about using: as it develops, it promises to transform everything from night-vision goggles to energy storage. Now researchers across the globe think they’ve come up with a material to rival it: diamond nanothread.

The clues are in the name. This potentially revolutionary, next-generation material is partly made from diamond and is incredibly thin as well as incredibly strong. Technically speaking, we’re looking at a type of carbon (like graphene) taking the form of a one-dimensional diamond crystal that’s topped with hydrogen. To create the material, benzene molecules were stacked together and pressurised.

It’s too early to say how diamond nanothread could be used — right now scientists are still at the research and simulation stage — but one of the appeals of a material like this is its versatility. And a team of scientists working at the Queensland University of Technology (QUT) in Australia has been looking into the properties of diamond nanothread and think it might be more versatile and robust than originally believed.

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Nov 29, 2015

LG pumps $8.7bn into OLED for your car, TV and wrist

Posted by in categories: electronics, energy, transportation

LG really, really wants your next TV, smartwatch, and car to use an OLED panel and, preferably, one that’s come off its new $8.71bn production line. The company’s panel arm, LG Display, has announced a whopping 1.84 trillion South Korean Won investment into a brand new facility dubbed P10, which will cater for what LG predicts will be blockbuster demand for OLED in a range of sizes.

That $8.71bn is only the tip of the iceberg, mind, and the plant — to be constructed in Paju, Gyeonggi Province, Korea — is expected to eventually cost more than five times that amount.

Continue reading “LG pumps $8.7bn into OLED for your car, TV and wrist” »

Nov 27, 2015

Imperial College team produces hydrogen from algae

Posted by in category: energy

https://youtube.com/watch?v=4fCInX116os

Kool, the sooner we can stop worrying about our effects on the carbon cycle so greatly the better. We can grow algae in the oceans.


Hydrogen is a very clean fuel that is increasingly being used as vehicle fuel and to generate electricity. The problem is how to produce it efficiently without generating significant carbon emissions and at a competitive cost. A team of researchers at Imperial College is currently looking at the problem and think they know how to do it.

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Nov 27, 2015

Storing solar, wind, and water energy underground could replace burning fuel | KurzweilAI

Posted by in categories: energy, environmental, solar power, water

Using-WWS-energy

Stanford and UC Berkeley researchers have a solution to the problem of storing energy from wind, water and solar power overnight (or in inclement weather): store it underground. The system could result in a reliable, affordable national grid, replacing fossil fuel, they believe.”

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Nov 26, 2015

This new touchscreen material could see the end of daily smartphone charging

Posted by in categories: electronics, energy, materials, mobile phones

Scientists in the UK have invented a new type of touchscreen material that requires very little power to illuminate, offering up a cheap alternative to today’s smartphone and tablet screens, with vivid colours and high visibility in direct sunlight.

The team is already in talks with some of the world’s largest consumer electronics corporations to see if their new material can replace current LCD touchscreens in the next couple of years, which could spell the end for daily smartphone charging. “We can create an entire new market,” one of the researchers, Peiman Hosseini, told The Telegraph. “You have to charge smartwatches every night, which is slowing adoption. But if you had a smartwatch or smart glass that didn’t need much power, you could recharge it just once a week.”

Developed by Bodie Technologies, a University of Oxford spin-off company, the new display is reportedly made from a type of phase-change material called germanium-antimony-tellurium, or GST. The researchers are being understandably cagey about exactly how it’s made as they shop the technology around, but it’s based on a paper they published last year describing how a rigid or flexible display can be formed from microscopic ‘stacks’ of GST and electrode layers.

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Nov 26, 2015

New ‘self-healing’ gel makes electronics more flexible

Posted by in categories: electronics, energy, materials

Researchers in the Cockrell School of Engineering at The University of Texas at Austin have developed a first-of-its-kind self-healing gel that repairs and connects electronic circuits, creating opportunities to advance the development of flexible electronics, biosensors and batteries as energy storage devices.

Although technology is moving toward lighter, flexible, foldable and rollable electronics, the existing circuits that power them are not built to flex freely and repeatedly self-repair cracks or breaks that can happen from normal wear and tear.

Until now, self-healing materials have relied on application of external stimuli such as light or heat to activate repair. The UT Austin “supergel” material has high conductivity (the degree to which a material conducts electricity) and strong mechanical and electrical self-healing properties.

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Nov 26, 2015

Zeoform: A New Plastic That Turns Hemp Into Almost Anything

Posted by in categories: energy, materials

A new type of plastic removes the need for fossil fuels and toxic chemicals, replacing it with a simple mixture of hemp and water.

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