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May 28, 2021

Generating electricity from heat using a spin Seebeck device

Posted by in categories: energy, engineering

Thermoelectric (TE) conversion offers carbon-free power generation from geothermal, waste, body or solar heat, and shows promise to be the next-generation energy conversion technology. At the core of such TE conversion, there lies an all solid-state thermoelectric device which enables energy conversion without the emission of noise, vibrations, or pollutants. To this, a POSTECH research team proposed a way to design the next-generation thermoelectric device that exhibits remarkably simple manufacturing process and structure compared to the conventional ones, while displaying improved energy conversion efficiency using the spin Seebeck effect (SSE).

A POSTECH joint research team—led by Professor Hyungyu Jin and Ph.D. candidate Min Young Kim of the Department of Mechanical Engineering with Professor Si-Young Choi of the Department of Materials Science and Engineering—has succeeded in designing a highly efficient thermoelectric device by optimizing the properties of both the interior and surface of the magnetic material that makes up the SSE thermoelectric device. This is a pioneering study to show the possibility of fabricating a next-generation thermoelectric device by utilizing the SSE, which has remained in . These research findings were recently published in the online edition of Energy and Environmental Science, an international academic journal in the field of energy.

Conventional TE devices rely on the charge Seebeck effect, a thermoelectric effect wherein a charge current is generated in the direction parallel to an applied temperature gradient in a solid material. This longitudinal geometry complicates the device structure and limits manufacturing such TE devices.

May 28, 2021

A simple model of the brain provides new directions for AI research

Posted by in category: robotics/AI

At Google’s workshop on the conceptual understanding of deep learning, award-winning computer scientist Christos Papadimitriou discussed brain assemblies and their correspondence with artificial intelligence.

May 28, 2021

Dragonfly: In Situ Exploration of Saturn’s Moon Titan, an Organic Ocean World

Posted by in categories: chemistry, space

Wednesday, May 26 at 8 pm ET, discover what we hope to learn about Saturn’s fascinating moon Titan, featuring planetary scientist Zibi Turtle. Register: https://s.si.edu/2Q58d9N

Saturn’s largest moon, Titan, is an ocean world with a dense atmosphere, abundant complex organic material on its icy surface, and a liquid-water ocean in its interior. The Cassini-Huygens mission revealed Titan to be surprisingly Earth-like, with active geological processes and opportunities for organic material to have mixed with liquid water on the surface in the past. These attributes make Titan a unique destination to seek answers to fundamental questions about what makes a planet or moon habitable and about the pre-biotic chemical processes that led to the development of life here on Earth.
NASA’s upcoming Dragonfly New Frontiers mission is a rotorcraft lander designed to perform long-range in situ investigation of the chemistry and habitability of this fascinating extraterrestrial environment. In this program, Planetary scientist Zibi Turtle from the Johns Hopkins Applied Physics Laboratory will discuss this fascinating new mission: Taking advantage of Titan’s dense atmosphere and low gravity, Dragonfly will fly from place to place, exploring diverse geological settings to measure the compositions of surface materials and observe Titan’s geology and meteorology. Dragonfly will make multidisciplinary science measurements at dozens of sites, traveling ~100 miles during a 3-year mission to characterize Titan’s habitability and to determine how far organic chemistry has progressed in environments that provide key ingredients for life.

Continue reading “Dragonfly: In Situ Exploration of Saturn’s Moon Titan, an Organic Ocean World” »

May 28, 2021

What we know so far about Covid-19 immunity — and what it means for vaccine boosters

Posted by in category: biotech/medical

Since the start of the pandemic, scientists have been seeking to better understand immunity to the novel coronavirus. How long is a person immune after having Covid-19, after getting vaccinated, or both? And what could long-lasting immunity mean for booster shots?

It’s still too early to tell — but experts are getting closer to cracking the code.

May 28, 2021

Artificial neurons recognize biosignals in real time

Posted by in categories: biotech/medical, information science, robotics/AI

Researchers from Zurich have developed a compact, energy-efficient device made from artificial neurons that is capable of decoding brainwaves. The chip uses data recorded from the brainwaves of epilepsy patients to identify which regions of the brain cause epileptic seizures. This opens up new perspectives for treatment.

Current neural network algorithms produce impressive results that help solve an incredible number of problems. However, the used to run these algorithms still require too much processing power. These artificial intelligence (AI) systems simply cannot compete with an actual brain when it comes to processing sensory information or interactions with the environment in real time.

May 28, 2021

Chia Is a New Way to Waste Resources for Cryptocurrency

Posted by in categories: bitcoin, cryptocurrencies

What Bitcoin does for electricity and Ethereum for video cards, Chia does for hard disks.

May 28, 2021

How Artificial Intelligence Is Cutting Wait Time at Red Lights

Posted by in category: robotics/AI

AI and cloud-based computing are saving billions of dollars in lost commuting time—and keeping you on your way.

May 28, 2021

Fluffy ball of darkinos could be lurking at the center of the Milky Way

Posted by in category: cosmology

Related: The 12 strangest objects in the universe

The most plausible explanation for the survival of G2 is that it’s more than just an ordinary gas cloud. Its hidden superpower? A star or two could be tucked inside the cloud, and the gravity of that star kept the whole structure intact during its passage near the black hole.

But there’s another, more radical explanation: Perhaps, the supermassive black hole isn’t really a black hole. Perhaps, it’s a fuzzy clump of dark matter.

May 28, 2021

Had COVID? You’ll probably make antibodies for a lifetime

Posted by in category: biotech/medical

Many people who have been infected with SARS-CoV-2 will probably make antibodies against the virus for most of their lives. So suggest researchers who have identified long-lived antibody-producing cells in the bone marrow of people who have recovered from COVID-191.

The study provides evidence that immunity triggered by SARS-CoV-2 infection will be extraordinarily long-lasting. Adding to the good news, “the implications are that vaccines will have the same durable effect”, says Menno van Zelm, an immunologist at Monash University in Melbourne, Australia.

Antibodies — proteins that can recognize and help to inactivate viral particles — are a key immune defence. After a new infection, short-lived cells called plasmablasts are an early source of antibodies.

May 28, 2021

A Vaccine Patch Could Someday Be An Ouchless Option

Posted by in category: biotech/medical

It’s the rare individual who actually looks forward to getting jabbed with a needle, even if what’s in the needle can protect them from a serious disease such as COVID-19.

But several teams around the world are working on a way to inject a vaccine without the ouch. The trick is to make the needles small. Really small. So small they don’t interact with the nerve endings that signal pain.

Mark Prausnitz is director of the Center for Drug Design, Development and Delivery at Georgia Tech. He works on something called microneedle patches to deliver vaccines. So far, he’s developed patch vaccines for flu and measles, but the technology could be used for a COVID-19 vaccine as well.