Breakthrough In Blending Metals—precise Control Of Multimetallic One-nanometer Cluster Formation Achieved

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It's nap time little martian

Happy 5,000th Martian Day!

Today was Opportunity Rover’s 5,000 Martian Day! Yay! Just in case you don’t know Opportunity, here are a few little facts. 

First, The opportunity Rover was launched on July 7th of 2003. It was lauched with another rover named Spirit. They landed on Mars in Janurary of 2004. Unfortunately Spirit stopped working in 2010 , but Opportunity is still alive and helping us understand Mars. 

Initially Opportuinity was only supposed to be around for 90 Earth days, but instead it’s gotten tons of extensions and is still collecting data today. 

Opportunity is run by a solar panel and is almost 5 feet tall. The solar panels hold enough energy for 14 hours, and the batteries help store energy for use at night. All of that helps to keep our little robot running. He currently holds the record for longest distance travelled “off-world.”

As of right now Opportunity is “hibernating” through the Martian winter and will wake up again in March (yay!) to help with more scientific discoveries. 

Happy 5,000 Martian Day Opportunity! And thanks for everything you do <3

Metal Rover Model Kit

Opportunity Poster

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.

Image source.

NASA blasts off Mars lander, InSight

Vandenberg AFB CA (AFP) May 05, 2018 NASA on Saturday blasted off its latest Mars lander, InSight, designed to perch on the surface and listen for “Marsquakes” ahead of eventual human missions to explore the Red Planet. “Three, two, one, liftoff!” said a NASA commentator as the spacecraft launched on a dark, foggy morning atop an Atlas V rocket at 4:05 am Pacific time (1105 GMT) from Vandenberg Air Force Base in California, m Full article

Mars Surface Is Looking Much Deadlier Than We Previously Thought

So much for those space potatoes.

A new study has revealed that compounds present in the Martian soil can wipe out whole bacterial cultures within minutes.

Researchers have had their suspicions over whether microorganisms can actually survive on the surface of the Red Planet, and now lab tests are spelling doom for any potential little green bacteria. And yeah, growing potatoes on Mars might be more difficult than we thought.

The problem here lies with perchlorates - chlorine-containing chemical compounds that we first detected on Mars back in 2008. These salty compounds are also what makes water on the Martian surface stay liquid, essentially turning it into brine.

Perchlorates are considered toxic for people, but they don’t necessarily pose a problem for microbes. And because they keep surface water liquid, on Mars the presence of these compounds could even be beneficial for life - or so we thought.

Researchers from the University of Edinburgh have now confirmed that when you pair the compounds with intense ultraviolet (UV) light exposure, things become grim for any life forms.

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AI-based method could speed development of specialized nanoparticles

A new technique developed by MIT physicists could someday provide a way to custom-design multilayered nanoparticles with desired properties, potentially for use in displays, cloaking systems, or biomedical devices. It may also help physicists tackle a variety of thorny research problems, in ways that could in some cases be orders of magnitude faster than existing methods.

The innovation uses computational neural networks, a form of artificial intelligence, to “learn” how a nanoparticle’s structure affects its behavior, in this case the way it scatters different colors of light, based on thousands of training examples. Then, having learned the relationship, the program can essentially be run backward to design a particle with a desired set of light-scattering properties – a process called inverse design.

The findings are being reported in the journal Science Advances, in a paper by MIT senior John Peurifoy, research affiliate Yichen Shen, graduate student Li Jing, professor of physics Marin Soljacic, and five others.

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Well, money is usually made from paper.

If money did grow on trees, we’d probably be more concerned about protecting the environment.

Chemis-tree

Chem: Crystallization Tree

Source

On November 9, 1967, the uncrewed Apollo 4 test flight made a great ellipse around Earth as a test of the translunar motors and of the high speed entry required of a crewed flight returning from the Moon. https://go.nasa.gov/2zybcxC

Cracking eggshell nanostructure: New discovery could have important implications for food safety

How is it that fertilized chicken eggs manage to resist fracture from the outside, while at the same time, are weak enough to break from the inside during chick hatching? It’s all in the eggshell’s nanostructure, according to a new study led by McGill University scientists.

The findings, reported today in Science Advances, could have important implications for food safety in the agro-industry.

Birds have benefited from millions of years of evolution to make the perfect eggshell, a thin, protective biomineralized chamber for embryonic growth that contains all the nutrients required for the growth of a baby chick. The shell, being not too strong, but also not too weak (being “just right” Goldilocks might say), is resistant to fracture until it’s time for hatching.

But what exactly gives bird eggshells these unique features?

To find out, Marc McKee’s research team in McGill’s Faculty of Dentistry, together with Richard Chromik’s group in Engineering and other colleagues, used new sample-preparation techniques to expose the interior of the eggshells to study their molecular nanostructure and mechanical properties.

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