World’s First Carbon Nanotube Surfboard 世界初のカーボンナノチューブサーフボード
Because we all need a board that weighs less than two pounds…right?
なぜなら、すべてが2ポンド...右未満の重さは、ボードがありますか?
Enlight Earth LLC and Eric Arakawa Designs bring you the world’s first carbon nanotube surfboard. This board was hand shaped and uses single wall carbon nanotube infused Epoxy making it one of the strongest and lightest surfboards in the world. Nano technology is definitely the wave of the future; the best phrase to describe the amazing abilities of NANO is “Surface Area”. These particles are so small that they have many times the surface area of regular particles, being that surface area is far greater it allows for a lot more electro-chemical reaction, which can make a small wrist watch battery have the power of multiple 9 volt batteries and a bonding area which can be used to fill in the gaps for amazing structural strength. A quick comparison of the tensile strength of different materials will show that Nano materials far exceed the strength of anything known to man… Enlight地球LLCとエリック荒川のデザインは、世界初のカーボンナノチューブのサーフボードをもたらす。このボードは、手の形され、単層カーボンナノチューブエポキシ樹脂の1つとなって注入を使用して、世界で最軽量のサーフボード最強。ナノテクノロジーは間違いなく、今後の波にされ、最高のフレーズをナノの驚くべき能力を記述するためには、"表面積"。これらの粒子のように何回も定期的に粒子の表面積は、表面積されるまでのところ、多くの電気を可能に、これは小さな腕時計バッテリーを作ることが化学反応を超えていますが小さくて、複数の9ボルトの電源が電池や接着面積は驚くべき構造強度のためのギャップを埋めるために使用することができます。異なる材料の引張強さの簡単な比較は、ナノ材料まで何人に知られている強度を超えることが表示されます...
Structural strength examples: Aluminum alloy Strength (Mpa) 600 Steel Strength (Mpa) 2,000 Silicone Carbide Strength (Mpa) 3,440 Carbon Fiber (AS4) Strength (Mpa) 4,300 Carbon Nanotube Strength (Mpa) 62,000
http://www.enlightearth.com http://www.ericarakawasurfboards.com/
This is going to revolutionize, low light imaging, and the efficiency of solar cell ten fold...
Shallow junction photonics is a patented semiconductor process that exploits unique atomic level alterations that occur in materials irradiated by high intensity lasers. The SiOnyx process employs a powerful, femto-second laser that exposes the target semiconductor to high intensity pulses as short as one billionth of a millionth of a second.
Crystalline materials subject to these intense localized energy events under go a transformative change, the atomic structure becomes instantaneously disordered and new compounds are “locked in” as the substrate re-crystallizes. When applied to silicon, the result is a highly doped, optically opaque, shallow junction interface that is thousands of times more sensitive to light than conventional semiconductor materials.
BLACK SILICONE Almost ten years ago, graduate students in the laboratory of physics professor Eric Mazur at Harvard University stumbled across a new way of making silicon more responsive: they found that if they blasted the surface of a silicon wafer with an incredibly brief pulse of laser energy in the presence of gaseous sulfur and other dopants, the resulting material—which they called “black silicon”—was much better at absorbing photons and releasing electrons. [1] This "Black Silicon" is between 100 and 500 times more sensitive to light than standard silicon.
SiOnyx Cummings Center 100 Suite 244G Beverly, Ma 01915 Phone: (978) 922-0684 Fax: (978) 922-0647 email: info@sionyx.com
SILVER-ZINC BATTERIES In the area of performance, ZPower batteries offer an extremely high ratio of energy to volume (Wh/l) in applications such as notebook computers, cell phones and consumer electronics. In fact, ZPower is the only rechargeable battery for consumer applications that beats lithium-ion in energy density--delivering as much as up to 40% more run time than lithium-ion. And, while lithium-ion technology is reaching a plateau, ZPower batteries have plenty of runway to increase both energy density and cycle life.
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