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Chemistry World September 25, 2014 Simon Hadlington |
First interstellar sighting of a branched alkyl molecule The radiotelescope in Atacama, Chile, has found the first branched molecule ever seen in interstellar space |
Chemistry World September 1, 2014 Jennifer Newton |
Wendy Brown: Space dust chemistry Professor Wendy Brown's research reproduces the cold and low pressures of space to model chemical reactions that occur when particles are brought together on interstellar dust grains. |
Chemistry World August 4, 2014 Andy Extance |
Next Mars rover will make oxygen from CO 2 Nasa's Mars 2020 rover will take a small step towards helping us directly explore the red planet, by studying how to convert its carbon dioxide atmosphere to oxygen. |
Fast Company Neal Ungerleider |
Buzz Aldrin's New Mission: Life On Mars These days, Aldrin has fashioned himself as an elder statesman for space exploration, and has set his sights even higher: Mars. |
Fast Company Rose Pastore |
SpaceX Spaceport In Texas Gets FAA Go-Ahead Under the FAA decision, SpaceX may conduct 12 commercial launches per year through 2025. |
Chemistry World July 8, 2014 Ian Crawford |
Lucky planet Lucky Planet is a well-written, engaging, and thought-provoking addition to discussions of extraterrestrial life. |
Fast Company Susan Karlin |
Why SpaceX And Other Non-Gaming Companies Scout Talent At Video Game Conventions What's a real-life space firm doing at a convention dedicated to simulation? |
Chemistry World May 13, 2014 Patrick Walter |
Star chamber sparkles with space dust Nasa has created star dust down here on Earth. The dust was produced in a lab by simulating the conditions found in the atmosphere of a red giant star. |
Fast Company Chris Gayomali |
Rough Day? This Gorgeous HD Livestream Of Earth From The International Space Station Will Help Since April 30, a rotating cast of ISS cameras have been livestreaming otherworldly views of our big Blue Marble on UStream. |
Chemistry World April 25, 2014 Rachel Wood |
Decoding interstellar carbon The detection of molecules such as fullerenes -- molecules composed entirely of carbon, including the spherical C 60 -- has revealed a more complicated picture of carbon in space. |
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