MIT researchers have used computer models to turn flakes of graphene into 3-D structures, creating one of lightest, strongest materials, writes Nicola Davison for CNN. "Once they combine and fuse together, all the flakes contribute to the strength of the overall structure," research scientist Zhao Qin explains.
Researchers at MIT have fused flakes of graphene into a sponge-like shape, creating one of the strongest lightweight materials, writes James Temperton for Wired. Flakes of graphene were compressed using heat and pressure, then 3-D printers were used to create a “strong, stable structure similar to some corals” for stress tests.
MIT researchers have developed a new ultra-light material that is ten times stronger than steel, reports Tia Ghose for CBS News. Ghose explains that in the future, the material could potentially be used to build bridges, “which would be ultrastrong, lightweight, and insulated against heat and cold because of all the myriad air pockets in the material.”
By fusing graphene into a porous 3-D form, MIT researchers have created a strong, lightweight material, writes Brooks Hays for UPI. “The findings suggest a 3D material's tensile and compressive properties are dependent on the geometry of its structure, not the strength of the 2D material from which it is derived,” explains Hays.
MIT researchers have designed a strong, lightweight material that is ten times stronger than steel, reports Katharine Schwab for Co.Design. “If we can produce the material in big amounts, we can use that to somehow substitute some of the steel used for construction,” says research scientist Zhao Qin.
Prof. Donald Sadoway speaks with Tom Ashbrook of NPR’s On Point about potential alternatives for lithium-ion batteries. “If we could make a battery based on aluminum we’d have something that is powerful, safe, and cheap,” says Sadoway.
MIT researchers have developed a stretchy, biocompatible material that could be implanted in a patient’s body and used to stimulate cells or detect disease, according to FOX News. The hydrogel “could bend and twist in a patient’s body without breaking down.”
CBC reporter Nora Young explores how MIT researchers have developed a new material, inspired by beaver fur, that could help keep surfers warm. “In sports technology there's a great need for textiles that have great insulating properties in water, but still let you stay agile and nimble,” explains graduate student Alice Nasto.
Graduate student Alice Nasto speaks with Cynthia Graber of Scientific American about her research designing a material inspired by the fur that keeps beavers and sea otters warm. Nasto explains that the fur "evolved to trap air, and this air provides a layer of insulation for them in water.”
MIT has been named the top university in the world in the latest QS World University Rankings, reports Nick Morrison for Forbes. This is the fifth consecutive year that MIT has earned the number one spot in the QS rankings.
Edd Gent writes for LiveScience that MIT researchers “have devised a new fabrication process that uses ultraviolet (UV) light to print successive layers of polymers into 3D, Transformer-like structures that ‘remember’ their shapes.”
MIT researchers have developed a method to 3-D print heat-responsive materials that can remember their original form, reports Rachel Zimmerman for WBUR. Prof. Nicholas Fang explains that this development is "critical for drug delivery — you could deliver a smaller, more tailored dose depending on the temperature change."
Melissa Lott writes for Scientific American that MIT researchers have created a device that generates steam using sunlight and does not require mirrors or lenses to concentrate the sun’s heat. The device could provide an “inexpensive option for applications ranging from the large scale (e.g. desalination and wastewater treatment) to smaller applications (e.g. residential water heating).”
Salon reporter Scott Eric Kaufman writes that MIT researchers are using light to print 3-D structures that are able to remember their original shapes, and could be used in solar panel tracking and drug delivery. Kaufman writes that the structures are capable “of springing back to their original forms.”
FOX News reporter Rob Verger writes that MIT scientists have created a new device that can boil water without electricity. The device can “heat water to 212 degrees under just the heat of the sun, and could be used for applications like sterilizing medical tools in settings without electricity.”