Monday, May 26, 2014

MATERIAL SPECIAL...................... IBM discovers first new class of polymers in decades



IBM discovers first new class of polymers in decades
The chemical tree got a bit of a shake this week with scientists at IBM announcing the discovery of the first new class of polymer materials in decades. Discovered using a combination of lab experiments and computer modelling, the new plastics have properties that could potentially have a huge impact in manufacturing, transportation, aerospace, and micro electronics.
Since the first synthetic plastics were invented in the 19th century, the use of polymers has spread from artificial billiard balls to become one of the key materials of the 21st century. They’re used so widely in modern life that this could almost be called a plastic age, though the names are rarely familiar with such non-household labels as polyesters, polyacrylates, polyethylene, polyolefins, polystyrene, epoxies, polyamides, and polyimides.
Despite this ubiquity, plastics aren't all that they should be. While they have a reputation for indestructibility, they’re actually very sensitive to the environment. Ultraviolet light, oxygen, heat, alcohols, and solvents can all destroy plastics in short order. Try using a polystyrene cup to measure out petrol and you’ll get a dramatic demonstration of this. They’re also very difficult to recycle because once they've been cured they can’t be remolded, and over time some can exude toxic chemicals if left in a landfill.
Up until now, polymer chemistry was regarded as a mature field where all the big discoveries have been made and it's now just a matter of filling in the details. It’s been decades since the last family of polymers was discovered, and most plastics research today involves combining, tweaking, and generally learning how to work plastics. It’s a bit like making advances in woodworking without discovering new species of trees. Now IBM have discovered the first new family of trees ... or rather, polymers in decades
We call chemistry a science, but in many ways it's an art that relies on the experience and intuition of the chemist. Computational chemistry combines the empirical work in the synthetic polymer chemistry lab with the modelling power of the computer to predict chemical reactions. It doesn't replace experiments, but it does cut out a lot of the trial and error. And it’s through computational chemistry that the new polymers were discovered.
By David Szondy http://www.gizmag.com/ibm-polymer-discovery-plastic/32088/?utm_source=Gizmag+Subscribers&utm_campaign=88e63f1d8c-UA-2235360-4&utm_medium=email&utm_term=0_65b67362bd-88e63f1d8c-91552917

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