Cosmic 'Booze' Created In Quantum Brewery 52
astroengine writes "The intense cold of interstellar space shouldn't be conducive to chemical reactions between methanol and hydroxyl radicals — two molecules that are known to exist in stellar nurseries and cold interstellar clouds — and yet the product of this reaction, methoxy radicals, are found in abundance throughout the universe. What is creating them? In a paper published in the journal Nature Chemistry (abstract), Dwayne Heard and colleagues from the University of Leeds think that interstellar alcohol is undergoing a destruction mechanism facilitated by a weird quantum effect known as tunneling. On encountering hydroxyl radicals, methanol molecules should be repelled by the electrostatic force. But at very low temperatures, when both chemicals are mixed in a cold gaseous state, quantum tunneling becomes extremely efficient at allowing chemical reactions to occur. The researchers write: 'at temperatures relevant to the interstellar medium, almost every collision between methanol and OH (hydroxyl) would result in a successful reaction to form CH3O (methoxy).' What's more, they find that the reaction rate is 50 times higher in the cold interstellar environment than it is at room temperature. 'If our results continue to show a similar increase in the reaction rate at very cold temperatures, then scientists have been severely underestimating the rates of formation and destruction of complex molecules, such as alcohols, in space,' said Heard."
headache... (Score:5, Insightful)
Cold chemistry ? (Score:5, Insightful)
This finding could led to the development of a new phase in chemistry - very low temperature chemistry
We are led to believe that chemicals get to mix better when temperatures are applied, but from what I read from TFA, that quantum tunneling process, if we can harness it, could save us a lot of energy in the many laboratories / factories all around the world
Booze? (Score:5, Insightful)
I'm pretty sure you don't want to use methanol for booze.
Re:Cold chemistry ? (Score:5, Insightful)
I suspect that the degree to which heat-pumping to achieve very, very, low temperatures is a pain in the ass(and quite energy intensive) compared to conventional resistive or combustion heating will limit the economy of using it as a replacement for existing high-temperature processes;
Right up until we start doing it in orbit. Put a mirror in front of a thing and paint it black...