MIT spinout Ginkgo Bioworks is highlighted on the 2018 CNBC Disruptor 50 list, reports CNBC’s Andrew Zaleski. Zaleski notes that Ginkgo Bioworks, “has developed an automated process for combining genetic parts that has made it the largest designer of printed DNA in the world. That breakthrough has positioned the start-up to change the face of a variety of industries.”
Fast Company reporter Adele Peters writes that MIT researchers have designed a kit that allows scientists to develop diagnostic tests quickly and cheaply. The kit, “uses modular blocks that can be connected in different patterns to replicate the function that would typically be built into a manufactured test for pregnancy, glucose, or an infection or other disease.”
International Business Times reporter Himanshu Goenka writes about MIT’s recent research that examines how volcanic ash could serve as a concrete additive and reduce manufacturing energy usage by 16%. “Volcanic ash forms under high heat and high pressure, and nature kind of does all those chemical reactions for us,” said study coauthor Stephanie Chin, a senior in CEE.
NBC Mach’s Denise Chow writes about MIT research being done to develop color-changing, 3D printed clothing using UV light. “We wanted to know, how can we update the color of an object at any time?” said Prof. Stephanie Mueller.
Jesus Diaz of Co.Design explains how MIT scientists have found that Legos can be used more easily to assemble microfluidic laboratories. Historically, doing so "required expensive custom prototyping and manufacturing methods."
Kaya Yurieff reports for CNN that CSAIL researchers have developed a system that allows the colors of 3-D printed objects to be altered after they have been fabricated. Prof. Stefanie Mueller explains that, “this sort of technology could help minimize the amount of waste that is produced from updating products."
TechCrunch reporter Brian Heater writes that MIT researchers have created a new system that allows users to change the color of 3-D printed objects. Heater explains that researchers, “are looking to bring color-changing properties to the 3D-printing process in an attempt to help reduce material waste.”
Marc Bain of Quartz reports that CSAIL researchers have created a system that changes the color of 3-D printed objects using UV light. The researchers hope this system will allow consumers to, “quickly match accessories to outfits, or let retail stores switch the color of clothing or other items on the spot for customers,” explains Bain.
CSAIL researchers have developed a method that allows the color of 3-D printed objects to change after they have been printed, writes Emily Matchar for Smithsonian. The method uses, “UV light to change the pixels on an object from transparent to colored, and then a regular office projector to turn them from colored to transparent,” explains Prof. Stefanie Mueller.
Wired reporter Arielle Pardes Gear writes that CSAIL researchers have developed a new system, called ColorFab, that makes it possible to change the color of 3-D printed objects after they have been created. ColorFab allows users to change an object’s color, “by returning to the ColorFab interface, selecting the areas to recolor, and then activating those areas with UV light.”
MIT researchers have made improvements to liquid-sodium batteries, potentially paving the way for the battery to be used for renewable energy storage, reports Laney Ruckstuhl for The Boston Globe. “Unlike lithium-ion batteries used in cellphones and laptops, the liquid-sodium batteries won’t lose their capacity quickly.”
Boston Herald reporter Lindsay Kalter writes that a team of MIT researchers has developed a new technique that can deliver medication to specific regions of the brain with extreme precision. “The whole idea here is that instead of treating the entire brain, you can treat small portions of the brain,” explains Prof. Michael Cima.
MIT researchers have discovered a new family of viruses in the ocean that appears to play a key role in ocean ecosystems and could help provide insights on how viruses evolve, reports Marin Finucane for The Boston Globe. Finucane explains that the findings could also lead to, "a better understanding of human biology.”
MIT researchers have designed a new chip that could advance the development of computers that operate like the human brain, reports James Vincent for The Verge. The development could, “lead to processors that run machine learning tasks with lower energy demands — up to 1,000 times less. This would enable us to give more devices AI abilities like voice and image recognition.”
AP reporter Lauran Neergaard writes that MIT researchers have developed a hair-thin implant that can deliver medications to specific regions of the brain. Neergaard writes that the device, “could mark a new approach to treating brain diseases — potentially reducing side effects by targeting only the hard-to-reach circuits that need care.”