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Archive for the ‘nanotechnology’ category: Page 222

Feb 28, 2019

Nanotechnology makes it possible for mice to see in infrared

Posted by in category: nanotechnology

My superpowers are coming.

“Mice with vision enhanced by nanotechnology were able to see infrared light as well as visible light, reports a new study. A single injection of nanoparticles in the mice’s eyes bestowed infrared vision for up to 10 weeks with minimal side effects, allowing them to see infrared light even during the day and with enough specificity to distinguish between different shapes. ”.

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Feb 28, 2019

Mammalian Near-Infrared Image Vision through Injectable and Self-Powered Retinal Nanoantennae

Posted by in categories: encryption, energy, military, nanotechnology

Mice with vision enhanced by nanotechnology were able to see infrared light as well as visible light, reports a study published February 28 in the journal Cell. A single injection of nanoparticles in the mice’s eyes bestowed infrared vision for up to 10 weeks with minimal side effects, allowing them to see infrared light even during the day and with enough specificity to distinguish between different shapes. These findings could lead to advancements in human infrared vision technologies, including potential applications in civilian encryption, security, and military operations.


Injectable photoreceptor-binding nanoparticles with the ability to convert photons from low-energy to high-energy forms allow mice to develop infrared vision without compromising their normal vision and associated behavioral responses.

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Feb 28, 2019

Scientists Give Mice “Super Vision” With Eye Injections

Posted by in categories: entertainment, nanotechnology

It’s something straight out of a Marvel comic book: giving test subjects the ability to see infrared light, similarly to how night-vision goggles work — but without the awkward and bulky apparatus.

Scientists at the University of Science and Technology of China injected tiny nanoparticles that bind to the retina into the eyeballs of test mice, granting them what the researchers called “super vision.”

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Feb 19, 2019

Breakthrough in the search for graphene-based electronics

Posted by in categories: computing, nanotechnology, particle physics, quantum physics

For 15 years, scientists have tried to exploit the “miracle material” graphene to produce nanoscale electronics. On paper, graphene should be great for just that: it is ultra-thin—only one atom thick and therefore two-dimensional, it is excellent for conducting electrical current, and holds great promise for future forms of electronics that are faster and more energy efficient. In addition, graphene consists of carbon atoms – of which we have an unlimited supply.

In theory, graphene can be altered to perform many different tasks within e.g. electronics, photonics or sensors simply by cutting tiny patterns in it, as this fundamentally alters its . One “simple” task, which has turned out to be surprisingly difficult, is to induce a band gap—which is crucial for making transistors and optoelectronic devices. However, since graphene is only an atom thick all of the atoms are important and even tiny irregularities in the pattern can destroy its properties.

“Graphene is a fantastic material, which I think will play a crucial role in making new nanoscale electronics. The problem is that it is extremely difficult to engineer the electrical properties,” says Peter Bøggild, professor atDTU Physics.

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Feb 19, 2019

New machine learning technique rapidly analyzes nanomedicines for cancer immunotherapy

Posted by in categories: biotech/medical, genetics, nanotechnology, robotics/AI

  • Spherical nucleic acids are a class of personalized medicines for treating cancer and other diseases
  • SNAs are challenging to optimize because their structures can vary in many ways
  • Northwestern University team developed a library approach and machine learning to rapidly synthesize, analyze and select for potent SNA medicines

EVANSTON, Ill.— With their ability to treat a wide a variety of diseases, (SNAs) are poised to revolutionize medicine. But before these digitally designed nanostructures can reach their full potential, researchers need to optimize their various components.

A Northwestern University team led by nanotechnology pioneer Chad A. Mirkin has developed a direct route to optimize these challenging particles, bringing them one step closer to becoming a viable treatment option for many forms of cancer, , neurological disorders and more.

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Feb 19, 2019

Nano-droplets are the key to controlling membrane formation

Posted by in categories: biotech/medical, nanotechnology

Biological membranes, and man-made variants, consist of amphiphilic molecules, of which soap is an example. These molecules have a head that bonds with water, but a tail that turns away from water. You can imagine that a group of such molecules in water, preferably puts the tails together, and sticks the heads out, towards the water. Similar processes also dominate the creation of membranes. Often they are spherical, like liposomes, so you can, for example, put a medicine in it. And also the ultimate , the cell wall, is constructed in a similar way.

How nano-droplets self-assemble

Until now, the formation of ‘micelles’ was considered to be the first step in membrane formation. A micelle is an extremely small spherical structure (about 100 nanometers) of amphiphilic molecules—all with the tails inwards and the heads outwards. However, researchers at Eindhoven University of Technology discovered a different beginning: the formation of nano-droplets in with a higher concentration of amphiphilic molecules. At the interface of that drop, the amphiphilic molecules, as it were, take each others’ hands: first they form spheres, which then change into cylinders or plates, and then a closed membrane is created that encloses the nano-droplet. With this so-called ‘self-assembly’ process, the droplet has become a liposome.

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Feb 15, 2019

Carbon Nanotube Ribbons Could Give Superman a Run for His Money

Posted by in categories: cyborgs, economics, nanotechnology

stretchy nanotubesLighter than air! Stronger than steel! More flexible than rubber! No, it’s not an upcoming superhero flick: It’s the latest marvelous formulation of carbon nanotubes–at least as reported by the creators of the new super-material. Researchers working on artificial muscles say they’ve created nanotech ribbons that make our human muscles look puny by comparison. The ribbons, which are made of long, entangled 11-nanometer-thick nanotubes, can stretch to more than three times their normal width but are stiffer and stronger than steel… They can expand and contract thousands of times and withstand temperatures ranging from −190 to over 1,600 °C. What’s more, they are almost as light as air, and are transparent, conductive, and flexible [Technology Review].

The material is made from bundles of vertically aligned nanotubes that respond directly to electricity. Lengthwise, the muscle can expand and contract with tremendous speed; from side-to-side, it’s super-stiff. Its possibilities may only be limited by the imaginations of engineers. [The material’s composition] “is akin to having diamond-like behavior in one direction, and rubber-like behavior in the others” [Wired], says material scientist John Madden, who wasn’t involved in the research.

When voltage is applied to the material, the nanotubes become charged and push each other away, causing the material to expand at a rate of 37,000 percent per second, tripling its width. That’s 10 times as far and 1000 times as fast as natural muscle can move, and the material does so while generating 30 times as much force as a natural muscle [IEEE Spectrum]. The researchers put together a video to illustrate the concept, and will publish their work in Science tomorrow.

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Feb 13, 2019

New welding process opens up uses for formerly un-weldable lightweight alloy

Posted by in category: nanotechnology

Developed in the 1940s, AA7075 is an aluminum alloy that’s almost as strong as steel, yet it weighs just one third as much. Unfortunately its use has been limited, due to the fact that pieces of it couldn’t be securely welded together. That’s recently changed, however, thanks to the use of titanium carbide nanoparticles.

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Feb 12, 2019

Electric nanoparticles can target and kill cancer cells

Posted by in categories: biotech/medical, nanotechnology

Particles that produce electrical signals when bombarded with ultrasound could be a way to direct a cell-killing treatment directly to tumors.

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Feb 9, 2019

Nanomachines taught to fight cancer

Posted by in categories: biotech/medical, education, nanotechnology

Scientists from ITMO in collaboration with international colleagues have proposed new DNA-based nanomachines that can be used for gene therapy for cancer. This new invention can greatly contribute to more effective and selective treatment of oncological diseases. The results were published in Angewandte Chemie.

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