Self-healing Material A Breakthrough For Bio-inspired Robotics

Lego's all-female 'Women of NASA' toy set just went on sale — and it's already Amazon's best-selling toy

The "Women of NASA" toy set went on sale November 1. It follows a powerful trend of Lego selling products that are more female-inclusive.

Lego’s new “Women of NASA” set is now available, and the product has already risen to the top of Amazon’s list of best-selling toys.

The set of 231 plastic pieces costs about $25 and went on sale Wednesday morning. Its instant popularity is not surprising to those who have been following Lego’s laudable — and presumably profitable — trend of selling toys that are more inclusive of women.

“Women of NASA” features four mini figurines of pioneering women from the space agency: the astronauts Sally Ride and Mae Jemison, the astronomer Nancy Grace Roman, and the computer scientist Margaret Hamilton.

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The end of heartless b*tches

Swiss scientists just 3D printed an artificial heart that beats like the real thing

Scientists at Switzerland’s ETH Zurich have used 3D printing to create a functional beating heart made of silicone. Here's why.

This realistic 3D-printed silicon heart could help people in need of heart transplants when there are not enough donors.

"Who is afraid of Super Woolf?"

What doesn't tear you makes you doper

Substitutional defects ( 2 ) are point defects in which an impurity atom takes the place of a native atom within the crystal lattice. Semiconductors often intentionally add substitional defects through doping, such as adding boron or phosphorous to silicon to create an n- or p-type semiconductor, and certain alloys include extraneous elements to create substitional defects for solution hardening purposes.

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A battery that eats CO2

By Khai Trung Le

A new type of battery developed by researchers at MIT could be made partly from carbon dioxide captured from power plants. Rather than attempting to convert carbon dioxide to specialized chemicals using metal catalysts, which is currently highly challenging, this battery could continuously convert carbon dioxide into a solid mineral carbonate as it discharges.

The battery is made from lithium metal, carbon, and an electrolyte that the researchers designed. While still based on early-stage research and far from commercial deployment, the new battery formulation could open up new avenues for tailoring electrochemical carbon dioxide conversion reactions, which may ultimately help reduce the emission of the greenhouse gas to the atmosphere.

Currently, power plants equipped with carbon capture systems generally use up to 30 percent of the electricity they generate just to power the capture, release, and storage of carbon dioxide. Anything that can reduce the cost of that capture process, or that can result in an end product that has value, could significantly change the economics of such systems, the researchers say.

Betar Gallant, Assistant Professor of Mechanical Engineering at MIT, said, ‘Carbon dioxide is not very reactive. Trying to find new reaction pathways is important.’Ideally, the gas would undergo reactions that produce something worthwhile, such as a useful chemical or a fuel. However, efforts at electrochemical conversion, usually conducted in water, remain hindered by high energy inputs and poor selectivity of the chemicals produced.

The team looked into whether carbon-dioxide-capture chemistry could be put to use to make carbon-dioxide-loaded electrolytes — one of the three essential parts of a battery — where the captured gas could then be used during the discharge of the battery to provide a power output.

The team developed a new approach that could potentially be used right in the power plant waste stream to make material for one of the main components of a battery. By incorporating the gas in a liquid state, however, Gallant and her co-workers found a way to achieve electrochemical carbon dioxide conversion using only a carbon electrode. The key is to preactivate the carbon dioxide by incorporating it into an amine solution.

‘What we’ve shown for the first time is that this technique activates the carbon dioxide for more facile electrochemistry,’ Gallant says. ‘These two chemistries — aqueous amines and nonaqueous battery electrolytes — are not normally used together, but we found that their combination imparts new and interesting behaviors that can increase the discharge voltage and allow for sustained conversion of carbon dioxide.’

The battery is made from lithium metal, carbon, and an electrolyte that the researchers designed. While still based on early-stage research and far from commercial deployment, the new battery formulation could open up new avenues for tailoring electrochemical carbon dioxide conversion reactions, which may ultimately help reduce the emission of the greenhouse gas to the atmosphere.

Smart ink adds new dimensions to 3-D printing

Researchers at Dartmouth College have developed a smart ink that turns 3D-printed structures into objects that can change shape and color. The innovation promises to add even more functionality to 3D printing and could pave the way to a new generation of printed material.

The advancement in the area of form-changing intelligent printing - also known as 4D printing - provides a low-cost alternative to printing precision parts for uses in areas ranging from biomedicine to the energy industry.

“This technique gives life to 3D-printed objects,” said Chenfeng Ke, an assistant professor of chemistry at Dartmouth. “While many 3D-printed structures are just shapes that don’t reflect the molecular properties of the material, these inks bring functional molecules to the 3D printing world. We can now print smart objects for a variety of uses.”

Many 3D printing protocols rely on photo-curing resins and result in hard plastic objects with rigid, but random molecular architectures. The new process allows designers to retain specific molecular alignments and functions in a material and converts those structures for use in 3D printing.

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‘Junk’ DNA Plays Crucial Role in Holding Genome Together: Study

Jagannathan et al propose that chromocenter and satellite DNA serves a fundamental role in encapsulating the full complement…more Image credit: Lisichik.

Biggest Ferris wheel ever: the Jupiter Eye

NASA just released Juno’s brand-new images of Jupiter’s red spot — and they’re jaw-dropping

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Moon dust could give astronauts permanent DNA damage, study finds

Moon dust clings to clothing and poses serious health risks to astronauts, a new study finds. Credit: NASA

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