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One day soon, buildings could become more energy-efficient—and environmentally sustainable—with insulating material developed from wood by researchers in Sweden. The newly-developed material offers as good or even better thermal performance than ordinary plastic-based insulation materials, according to researchers reporting recently in ACS Applied Materials & Interfaces.

Yuanyuan Li, an assistant professor at Wallenberg Wood Science Center, KTH Royal Institute of Technology in Stockholm, says that the new insulating material is an aerogel integrated wood which is made without adding additional substances.

Wood cellulose aerogels themselves are nothing new—researchers have been developing advanced types of aerogels and other composites for the last several years in the Wallenberg Wood Science Center at KTH—but Li says the new method represents a breakthrough in controlled creation of insulating nanostructures in the pores of wood.

“Functional mutations in the growth hormone pathway” meaning it is not active. What’s good for you as a youngster might not be good for you when you’re old.

Dr Nir Barzilai reveals what the longevity genes project found on why Centenarians live longer, not the longevity genes, not healthy lifestyles in this clip.

Continue reading “NOT The Longevity Genes!? Surprising Facts WHY Centenarians LIVE LONGER | Dr Nir Barzilai Clips” »

Circa 2019

Mark Lawrence (link is external), a postdoctoral scholar in materials science and engineering at Stanford, has moved a step closer to this future with a scheme to make a photon diode — a device that allows light to only flow in one direction — which, unlike other light-based diodes, is small enough for consumer electronics.

After surgery, some cancer patients can safely skip radiation or chemotherapy, according to two studies exploring shorter, gentler cancer care.

Researchers are looking for ways to precisely predict which cancer patients can avoid unneeded treatment to cut down on harmful side effects and unnecessary costs.

One new study used a blood test to determine which colon cancer patients could skip chemotherapy after surgery. Another suggests some low-risk breast cancer patients can omit radiation after lumpectomy.

Quantum sensing is poised to revolutionize today’s sensors, significantly boosting the performance they can achieve. More precise, faster, and reliable measurements of physical quantities can have a transformative effect on every area of science and technology, including our daily lives. However, most of these schemes are based on special entangled or squeezed states of light or matter that are difficult to detect. It is a significantly challenging task to harness the full power of quantum-limited sensors and deploy them in real-world scenarios.

A team of physicists at the Universities of Bristol, Bath, and Warwick have found a way to operate mass manufacturable photonic sensors at the quantum limit. They have shown that it is possible to perform high-precision measurements of critical physical properties without the need for sophisticated quantum states of light and detection schemes.

Using ring resonators is a key to this breakthrough discovery. The ring resonators are tiny racetrack structures that guide light in a loop and maximize its interaction with the sample under study. Importantly, ring resonators can be mass-produced in the same way chips in computers and cell phones are.

For those wondering what type of technology exists beyond 5G, scientists are saying a mobile communications frequency could be its level up. The new technology is called “beam-steering” and remains inaccessible to the current technological capacities.

University of Birmingham Scientists Find Faster Speeds than 5G

Scientists from the University of Birmingham, UK, were the ones that revealed the new technology and suggested that it cannot be accessed with the technology’s current capabilities. The “beam-steering” technology, as detailed by the scientists, is capable of speeds up to 10gbps.

Using a network of vibrating nano-strings controlled with light, researchers from AMOLF have made sound waves move in a specific irreversible direction and attenuated or amplified the waves in a controlled manner for the first time. This gives rise to a lasing effect for sound. To their surprise, they discovered new mechanisms, so-called “geometric phases,” with which they can manipulate and transmit sound in systems where that was thought to be impossible. “This opens the way to new types of (meta)materials with properties that we do not yet know from existing materials,” says group leader Ewold Verhagen who, together with shared first authors Javier del Pino and Jesse Slim, publishes the surprising results on June 2 in Nature.

The response of electrons and other charged particles to magnetic fields leads to many unique phenomena in materials. “For a long time, we have wanted to know whether an effect similar to a magnetic field on electrons could be achieved on sound, which has no charge,” says Verhagen. “The influence of a magnetic field on electrons has a wide impact: for example, an electron in a magnetic field cannot move along the same path in the opposite direction. This principle lies at the basis of various exotic phenomena at the nanometer scale, such as the quantum Hall effect and the functioning of topological insulators (materials that conduct current perfectly at their edges and not in their bulk). For many applications, it would be useful if we could achieve the same for vibrations and sound waves and therefore break the symmetry of their propagation, so it is not time-reversal symmetric anymore.”

Elon Musk last week told SpaceX employees the company isn’t likely to take its Starlink satellite internet business public until 2025 or later, CNBC has learned, extending the estimated timeline for an initial public offering yet again.

“I’m not sure exactly when that [IPO] is, but maybe it will be like — I don’t know, just guessing — three or four years from now,” Musk said at an all-hands meeting of the private company’s employees on Thursday, according to an audio recording obtained by CNBC.

Musk emphasized, as he has previously, that the Starlink business needs to be “in a smooth sailing situation” with “good predictability.” At that point, “I think spinning it off as a public company can make a lot of sense,” the SpaceX CEO said.

This is a fantastic podcast exploration of a rapidly maturing, wildley varied fields of science, the military, medicine, the industrialization, exploration, and colonization of our solar system, and the hope for, path to, and purpose of the successful creation of a posthuman, post scarcity future. Its a future destination for humanity that will require a seemless, successful integration of our human biology with artificial intelligence and advanced nonbiological — AND artificially biological — mechanical systems that in one way or another all pass through a very few neccessary technological achievements. In this case it is the seemless communication in both directions of the biological, in this specific case it’s the human sense of touch.

When Brandon Prestwood’s left hand was caught in an industrial conveyor belt six years ago, he lost his arm. Scientists are slowly unraveling the science of touch by trying to tap into the human nervous system and recreate the sensations of pressure for people like Prestwood. After an experimental surgery, Brandon’s prosthetic arm was upgraded with a rudimentary sense of touch—a major development in technology that could bring us all a little closer together.

Continue reading “Restoring a lost sense of touch | Podcast | Overheard at National Geographic” »