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Mar 3, 2017

Big nanotechnology advance could spell end of deadly organ shortage

Posted by in categories: biotech/medical, nanotechnology

Frozen organs could be brought back to life safely one day with the aid of nanotechnology, a new study finds. The development could help make donated organs available for virtually everyone who needs them in the future, the researchers say.

The number of donated organs that could be transplanted into patients could increase greatly if there were a way to freeze and reheat organs without damaging the cells within them.

In the new work, scientists developed a way to safely thaw frozen tissues with the aid of nanoparticles — particles only nanometers or billionths of a meter wide. (In comparison, the average human hair is about 100,000 nanometers wide.)

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Mar 3, 2017

Like start-ups, most intentional communities fail – why?

Posted by in category: space

Like all communities, space colonies need to be socially stable. What do succeeded and failed Utopias on Earth teach us?


Most utopian communities are, like most start-ups, short-lived. What makes the difference between failure and success?

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Mar 3, 2017

Want more crop variety? Researchers propose using CRISPR to accelerate plant domestication

Posted by in categories: bioengineering, biotech/medical, food, genetics, sustainability

The more crops we cultivate, the less chance our food supply wil get wiped out by a disease.


Out of the more than 300,000 plant species in existence, only three species—rice, wheat, and maize—account for most of the plant matter that humans consume, partly because in the history of agriculture, mutations arose that made these crops the easiest to harvest. But with CRISPR technology, we don’t have to wait for nature to help us domesticate plants, argue researchers at the University of Copenhagen. In a Review published March 2 in Trends in Plant Science, they describe how gene editing could make, for example, wild legumes, quinoa, or amaranth, which are already sustainable and nutritious, more farmable.

“In theory, you can now take those traits that have been selected for over thousands of years of crop domestication—such as reduced bitterness and those that facilitate easy harvest—and induce those mutations in plants that have never been cultivated,” says senior author Michael Palmgren, a botanist who heads an interdisciplinary think tank called “Plants for a Changing World” at the University of Copenhagen.

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Mar 3, 2017

The Impossible Burger Just Made Major Strides

Posted by in category: food

Meat production gobbles up more than half of all land in use by agriculture. Shrinking this will allow us to restore nature and open up land for recreation and living. Also, the pressure on the tropical rainforests will diminish.


Silicon Valley plant-based beef from Impossible Foods is now in Bareburger at 535 LaGuardia Place in New York, its first chain restaurant.

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Mar 3, 2017

New strain of algae produces five times more hydrogen fuel

Posted by in categories: energy, genetics, transportation

Hydrogen can be used in combustion like a regular gas engine or mixed with oxygen in a fuel cell for an electric engine.


A Tel Aviv University team led by Iftach Yacoby genetically engineered algae to emit hydrogen five times more efficiently to potentially power hydrogen cars.

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Mar 3, 2017

Growing tissue grafts on humanoid robots: A future strategy in regenerative medicine?

Posted by in categories: biotech/medical, cyborgs, robotics/AI, space travel

Humanoid robots may enhance growth of musculoskeletal tissue grafts for tissue transplant applications.

Over the past decade, exciting progress has been made in the development of humanoid robots. The significant potential future value of humanoids includes applications ranging from personal assistance to medicine and space exploration. In particular, musculoskeletal humanoids (such as Kenshiro and Eccerobot) were developed to interact with humans in a safer and more natural way (1, 2). They aim to closely replicate the detailed anatomy of the human musculoskeletal system including muscles, tendons, and bones.

With their structures activated by artificial muscles, musculoskeletal humanoids have the ability to mimic more accurately the multiple degrees of freedom and the normal range of forces observed in human joints. As a result, it is not surprising that they offer new opportunities in science and medicine. Here, we suggest that musculoskeletal robots may assist in the growth of musculoskeletal tissue grafts for tissue transplant applications.

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Mar 3, 2017

Physicists Have Detected a Friction-Like Force in a Perfect Vacuum

Posted by in category: particle physics

One of the most fundamental tenets of modern physics is that in a perfect vacuum — a place entirely devoid of matter — no friction can possibly exist, because empty space cannot exert a force on objects travelling through it.

But despite the conventional wisdom, physicists in the UK discovered that a decaying atom travelling through a complete vacuum would experience a friction-like force, and now they’ve figured out how this reinforces — rather than breaks — Einstein’s theory of general relativity.

“We spent ages searching for the mistake in the calculation and spent even more time exploring other strange effects until we found this (rather simple) solution,” one of the team, Matthias Sonnleitner from the University of Glasgow told Lisa Zyga at Phys.org.

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Mar 3, 2017

Space Mining: Luxembourg and lunar robotic company ispace shoot for the moon

Posted by in categories: business, engineering, government, robotics/AI, space

https://youtube.com/watch?v=5cMEJTnPq-I

(sth/T.L.) – Luxembourg’s government and Tokyo-based space lunar robotic exploration company ispace Inc. on Thursday signed a Memorandum of Understanding (MoU) in the context of the SpaceResources.lu initiative with focus on developing miniaturized technology to discover, map, and utilize resources on the Moon.

Japanese start-up ispace was created by Hakuto, a finalist team of Google’s prestigious innovation competition Google Lunar XPRIZE. The company already works together with the Luxembourg Institute of Science and Technology (LIST) and will continue to do so.

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Mar 3, 2017

What Fraction of Bitcoin Value is Driven by Speculators?

Posted by in categories: bitcoin, cryptocurrencies, economics, internet

At Quora, I occasionally play, “Ask the expert”. Several hundred of my Quora answers are linked here. Today, I was asked “How much of Bitcoin’s value is driven by speculation”. This is my answer…


This is a great question! While the value of any commodity is determined by supply and demand, speculation is one component of demand. Another is the unique utility value inherent in a product or process. This is sometimes called ‘intrinsic value’.

It’s ironic that when a high fraction of value is driven by speculation, short-term value becomes volatile and long-term value becomes less certain—and less likely to produce returns for those same speculators.

Editor’s Note: In the past few weeks, a significant spike in Bitcoin’s value and trading volume relates to a pending regulatory decision expected at the end of next week. This activity is certainly driven by speculation. But for this article, I am considering periods in which the demands of individual events are less clear.

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Mar 3, 2017

Researchers create new form of matter—supersolid is crystalline and superfluid at the same time

Posted by in categories: energy, quantum physics

MIT physicists have created a new form of matter, a supersolid, which combines the properties of solids with those of superfluids.

By using lasers to manipulate a superfluid gas known as a Bose-Einstein condensate, the team was able to coax the condensate into a quantum phase of matter that has a rigid structure—like a solid—and can flow without viscosity—a key characteristic of a superfluid. Studies into this apparently contradictory phase of matter could yield deeper insights into superfluids and superconductors, which are important for improvements in technologies such as superconducting magnets and sensors, as well as efficient energy transport. The researchers report their results this week in the journal Nature.

“It is counterintuitive to have a material which combines superfluidity and solidity,” says team leader Wolfgang Ketterle, the John D. MacArthur Professor of Physics at MIT. “If your coffee was superfluid and you stirred it, it would continue to spin around forever.”

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