polymers
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MIT's new 3D-printer makes objects that remember their shape
3D printing has done a lot for medical science. It's helped us create better prosthetics, manufacture artificial vertebrae and even develop smaller internal cameras. Next, it could help us revolutionize medication delivery. MIT researchers are using a new 3D-printing process to create tiny structures that change shape at specific temperatures -- opening the door for a new drug delivery system that only medicates patients if they have a fever.
IBM's 'Ninja Particles' could stop the rise of superbugs
IBM Research's Jim Hedrick has a great job. His work on polymers -- those repeating chains of macromolecules that make up most things in our world, like the computer or phone you're reading this on -- has led to the creation of substances with Marvel Comics-worthy descriptors. There's the self-healing, Wolverine-like substance that arose from a recycled water bottle and something called "ninja particles" that'll advance the reality of nanomedicine. Both discoveries will inevitably make their way into consumer products in the near future, but it's his team's progress on nanomedicine that Hedrick discussed during my visit to IBM Research's sprawling Almaden lab in San Jose, California.
Scientists develop composite material to enhance device response time
Ever feel like your phone is taking an awfully long time to register that swipe to unlock? Well, scientists from Imperial College London and King Abdullah University of Science and Technology are developing a solution that could mean faster response times. By combining polymer semiconductors and small molecules into a composite material to make organic thin-film transistors -- a process known as composite collaboration -- they found a way to increase the speed of the electrical charge moving through a device's components. The end result could someday be a smartphone that reacts to your touch much more quickly than your current handset. If you're so inclined, jump below the break to the presser for a more in-depth explanation.
MIT gurus use polyethylene to suck heat away from your next CPU
Man, MIT is making all of these other places of higher learning look silly. For what seems like the fortieth time this month, scientists at the university have revealed yet another breakthrough that might just change the way we compute in the future. Polyethylene, which is about as common a polymer as they come, could very well become a vital part of the way your next processor is cooled, as MIT boffins have figured out how to cause said polymer to "conduct heat very efficiently in just one direction, unlike metals, which conduct equally well in all directions." If you're still struggling to figure out why this matters, have a listen at this: "this may make the new material especially useful for applications where it is important to draw heat away from an object, such as a computer processor chip." In fact, even Intel is taking notice of the development, though no one's saying outright when exactly this stuff will leave the lab and hit Dell's supply chain. There's no time like the present, guys. [Thanks, Kevin]
