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.
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.”
Popular Science reporter Sarah Chodosh writes that MIT researchers have developed a strategy to deliver beneficial bacteria to the GI tract. The researchers used layers of different sugars "to coat individual cells of Bacillus coagulans, which is used to treat irritable bowel syndrome."
Prof. Robert Langer talks to Jessica Harris from NPR about his research on tissue engineering and drug delivery, the commercialization of his discoveries, and the many companies he has started. Langer says he started his lab based off his desire to improve people’s lives by conducting research “at the interface of chemical engineering and medicine.”
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.
MIT postdoc Amit Kumar writes in Science about how being in an unfamiliar culture aided his research career and helped him take on new leadership roles. His personal essay explores an academic journey that spans from India to Belgium to the United States.
MIT researchers have developed a programmable vaccine that could be used to respond to disease outbreaks, reports Ben Gruber for Reuters. The vaccine harnesses “messenger RNA, a genetic material that can be programmed to fight any viral, bacterial or parasitic disease by provoking an amplified immune response.”
NPR's Martha Bebinger speaks with Prof. Allan Myerson about the system he and his colleagues developed to manufacture drugs on demand. “These are portable units so you can put them on the back of a truck and take them anywhere,” he explains. “If there was an emergency, you could have these little plants located all over.”
CNN’s Jareen Imam writes that MIT researchers have developed a new topical solution that can make wrinkles invisible and could potentially deliver medications to the skin. "We hope this can be used for many different things," explains Prof. Daniel Anderson. "For example, if you need it for a large area of skin you might put it on like sunscreen."
CBS This Morning highlights the “second skin” material developed by MIT researchers that can help tighten wrinkles and protect the skin. CBS News medical contributor Dr. David Agus says that the material is “really an amazing work in chemical engineering,” highlighting how the material could be used to deliver medication to the skin.
A new material developed by MIT researchers could assist with everything from tightening wrinkles to delivering medication to the skin, reports Enjoli Francis for ABC News. Prof. Robert Langer explains that the material is invisible and “conforms to the skin. You can use it to deliver a drug, if you want, and it's mechanically quite strong."
FOX 25 reports on the new polymer developed by MIT researchers that can smooth wrinkles and could one day potentially deliver medications to the skin. The material is a “‘silicone-based polymer’ that acts as a kind of ‘second skin,’ and could be used to provide protection from the sun.”