CBS News reporter Brian Mastroianni writes that MIT researchers have engineered spinach plants to serve as sensors by embedding the leaves with carbon nanotubes. Mastroianni explains that the researchers feel this work shows that “plants could ultimately serve as great collaborators in helping people better understand the environment around them.”
Washington Post reporter Sarah Kaplan writes that MIT researchers have developed bionic spinach plants that can detect explosives. Kaplan explains that the researchers were able to “turn plants into bomb-sniffing machines with the help of tiny cylinders of carbon that can detect ‘nitroaromatics’ — chemical compounds often used in explosives.”
Kate Samuelson writes for TIME that MIT engineers have created a method for turning spinach plants into bomb detectors that can wirelessly transmit warning signals. The research "opens the door to the use of wild-type plants for infrared communication in wide areas, and real-time monitoring of environments,” explains Samuelson.
MIT researchers have created bomb-detecting spinach by embedding fluorescent nanoparticles into the plant’s leaves, The Guardian reports. Plants are ideal for this detection system because they “have built-in power sources and are able to move fluids around very efficiently,” explains Prof. Michael Strano.
BBC News reporter Paul Rincon writes that by embedding carbon nanotubes into spinach leaves, MIT researchers have created plants that can detect explosives. “The plants could be used for defense applications, but also to monitor public spaces for terrorism related activities,” explains Prof. Michael Strano.
Writing for The Huffington Post, Adi Gaskell highlights how CSAIL researchers have developed system to help robots work together successfully. Gaskell explains that the system allows three robots to “work successfully together to ensure items are delivered accurately in an unpredictable environment.”
A paper-based test that can detect the Zika virus, developed by Prof. James Collins and his research team, is featured in a list of the year’s most important health innovations compiled Alyssa Favreau and Claire Maldarelli for Popular Science. Unlike conventional lab tests, the paper-based test can provide results within three hours.
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.”
Damian Carrington writes for The Guardian that MIT researchers set a new world record for the highest plasma pressure ever recorded using the Alcator C-Mod reactor. Carrington notes that the “MIT record shows that using very high magnetic fields to contain the plasma may be the most promising route to practical nuclear fusion reactors.”
Guardian reporter Amy Fleming spotlights Prof. Robert Langer’s work revolutionizing medicine. Fleming notes that “Langer’s trailblazing research in nanotechnology, which ranges from haircare to cancer treatments, has already improved the lives of at least 2 billion people.”
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.
MIT researchers have developed a new technique for making vaccines using freeze-dried cells, reports Ed Yong for The Atlantic. Yong explains that in addition to producing medicines, the technique provides a new way of “detecting important diseases, like Zika and Ebola, without relying on laboratories or sequencing machines.”
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.”
In an article for U.S. News & World Report exploring MOOC-based credential options, Jordan Friedman highlights the MITx MicroMasters program in supply chain management. “Students who earn the MicroMasters can, if admitted, apply their credential to MIT's supply chain management master's program,” writes Friedman.