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Nov 10, 2021

This long-lasting hydrogel could be used to replace damaged human tissues

Posted by in category: materials

More entanglements in the material help polymer chains slip without breaking.

Nov 10, 2021

For a decade or two we have been purchasing Tibetan Tsakli sets in order to prevent them being split up and sold individually by dealers and thus irrevocably lost

Posted by in category: education

We have also accumulated a very large collection of ritual objects, statues, thangkas, painting and drawings. Steve Nichols was initiated into the Kagyu tradition (Whispered Succession) although this collection (1,000’s of items) covers Bonpo and the other schools. exhibition

Nov 10, 2021

Making science serve humanity: Jennifer Doudna, PhD, says CRISPR gene-editing technology should be accessible to all

Posted by in categories: biotech/medical, genetics, health, science

The path that led Jennifer Doudna, PhD, and her colleagues to the development of CRISPR, the gene-editing tool that has revolutionized science and earned her a Nobel Prize, started with their deep curiosity and drive to understand how the most basic building blocks of life function.

When Doudna first decided to investigate precisely what systems bacteria use to adapt their immune systems to fight off viral infections, she had little expectation that the findings would ultimately provide the key to technology that could be used to safely alter genetic code.

“All of us [on the research team] realized that what had started as a fundamental research question was morphing into a very different kind of project; namely, one with enormous technical potential and also risks and opportunities that we had not appreciated when we started the work,” Doudna explained during a conversation with J. Larry Jameson, MD, PhD, chair of the AAMC Board of Directors and executive vice president of the University of Pennsylvania Health System, at the opening plenary of Learn Serve Lead 2021: The Virtual Experience, on Monday, Nov. 8.

Nov 10, 2021

Brain Structure is Key to Understanding Human Cognition

Posted by in categories: biotech/medical, computing, health, neuroscience

A CNS 2021 provided an incredible opportunity to learn more how the anatomy and integrity of brain networks impact higher-level cognition.


In the 19th and 20th century, cases of individuals with brain injury, such as Phineas Gage or Henry Molaison, have advanced our understanding of the relationship between the anatomy of the brain and its function. Back then, methods were limited to investigate whole-brain structure and function. Now, cognitive neuroscientists have some ability to visualize and measure activity of the whole brain at once, as well as the computational tools to investigate complex network-level relationships between brain structure, brain function, and behavior.

As a doctoral student working on stroke recovery, attending the CNS 2021 symposium led by Danielle Bassett was an incredible opportunity to learn more about some of the most recent methods that have been developed to understand how the anatomy and integrity of brain networks impact higher-level cognition. Strokes highly disrupt anatomical and functional connectivity, leading to cognitive and motor impairments. In individuals with post-stroke language impairments, namely aphasia, evidence shows that the more functional brain networks recover an organization similar to healthy individuals the better the recovery (Kiran et al., 2019). Understanding the relationship between brain structure and function in health and disease is therefore essential to develop appropriate treatments.

Continue reading “Brain Structure is Key to Understanding Human Cognition” »

Nov 10, 2021

‘Back to basics’ approach helps unravel new phase of matter

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

A new phase of matter, thought to be understandable only using quantum physics, can be studied with far simpler classical methods.

Researchers from the University of Cambridge used computer modeling to study potential new phases of matter known as prethermal discrete time crystals (DTCs). It was thought that the properties of prethermal DTCs were reliant on : the strange laws ruling particles at the subatomic scale. However, the researchers found that a simpler approach, based on classical physics, can be used to understand these mysterious phenomena.

Understanding these new phases of matter is a step forward towards the control of complex many-body systems, a long-standing goal with various potential applications, such as simulations of complex quantum networks. The results are reported in two joint papers in Physical Review Letters and Physical Review B.

Nov 10, 2021

Scientists created World’s thinnest X-ray detector

Posted by in category: biological

The study opens new avenues for the development of next-generation, highly sensitive X-ray detectors.

Nov 10, 2021

Lynx R-1 MR Headset Kickstarter Comes to an End with over $800,000

Posted by in categories: augmented reality, virtual reality

French startup Lynx launched a Kickstarter campaign for Lynx R-1 in October, a standalone MR headset which is capable of both VR and passthrough AR. Starting at €530 (or $500 if you’re not subject to European sales tax), the MR headset attracted a strong response from backers as it passed its initial funding goal in under 15 hours, going on to garner over $800,000 throughout the month-long campaign.

Update (November 10th, 2021): Lynx R-1 Kickstarter is now over, and it’s attracted €725,281 (~$835,000) from 1,216 backers. In the final hours the campaign managed to pass its first stretch goal at $700,000—a free facial interface pad.

Continue reading “Lynx R-1 MR Headset Kickstarter Comes to an End with over $800,000” »

Nov 10, 2021

3D Printed Absolute Encoder Is Absolutely Wonderful

Posted by in category: robotics/AI

When you need to record the angle of something rotating, whether it’s a knob or a joint in a robotic arm, absolute rotary encoders are almost always the way to go. They’re cheap, they’re readily available, and it turns out you can make a pretty fantastic one out of a magnetic sensor, a ziptie, and a skateboard bearing.

When [Scott Bezek] got his hands on a AS5600 magnet sensor breakout board, that’s just what he did. The sensor itself is an IC situated in the middle of the board, which in Scott’s design sits on a 3D-printed carrier. A bearing mount sits atop it, which holds — you guessed it — a bearing. Specifically a standard 608 skateboard bearing, which is snapped into the mount and held securely by a ziptie cinched around the mount’s tabs. The final part is a 3D-printed knob with a tiny magnet embedded within, perpendicular to the axis of rotation. The knob slides into the bearing and the AS5600 reads the orientation of the magnet.

Continue reading “3D Printed Absolute Encoder Is Absolutely Wonderful” »

Nov 10, 2021

KLEVV announces DDR5 CRAS XR RGB memory up to 6400 MT/s

Posted by in category: computing

KLEVV Reveals New DDR5 Standard and Gaming Memory Designed for Intel 12th Generation ‘Alder Lake’ platforms, QVL tested with leading motherboard brands HONG KONG — KLEVV, an emerging memory brand introduced by Essencore, today announced the latest addition to its lineup of computer memory upgrades with new DDR5 memory series, including DDR5 standard memory and […].

Nov 10, 2021

New $250 million government fund aims to spark greater use of electric vehicles

Posted by in categories: government, sustainability, transportation

In the lead up to the 2019 election, Scott Morrison said Labor’s target of 50 per cent of all new vehicles being electric by 2030 would “end the weekend”. Now he’s backing them with the new $250 million “future fuels” fund.