A few years back, scientists discovered a giant cloud of hooch floating around in space. The 288 billion-mile cloud of gaseous methanol, an alcohol present in antifreeze and some moonshine presented a conundrum: How do alcohols, which are fairly complex organic molecules, form in space.
In the vast expanse of interstellar space, temperatures are so low that chemical reactions shouldn’t be able to occur, following the classic rules of chemistry – there’s just not enough energy. Yet they do occur, and with an even faster reaction rate than at room temperature, according to a study online in Nature Chemistry this week. These impossible reactions can be explained through a phenomenon called quantum tunneling, the authors theorize.


As temperatures plummet, chemical reactions slow down, as there is less energy and fewer collisions between molecules to rearrange chemical bonds. But, according to the team of chemists from the University of Leeds in the UK, some reactions might skirt the classical rules of chemical reactions through quantum tunnelling, a process in which a particle wiggles through the reaction barrier (the energy required to start a reaction) even when technically it doesn’t have enough energy to overcome it.

Heard and his colleagues plan to study how other alcoholic reactions occur in the extreme cold. “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.

All I know is that any omnipotent being that creates a Universe so he/she can brew moonshine is alright in my books…

Ref: PopScience