Skip to content ↓

Topic

Plants

Download RSS feed: News Articles / In the Media / Audio

Displaying 1 - 15 of 54 news clips related to this topic.
Show:

Forbes

Jasmina Aganovic ’09 founded Future Society, a brand that uses sequenced DNA from extinct flowers to create new scents, reports Celia Shatzman for Forbes. “[With] plants that are from another time, never before have we been able to time travel through smell,” says Aganovic. “But now we can do that, thanks specifically to DNA sequencing. It’s an example of where we're starting off with this concept of limitless nature. It isn't just about stories; it's also about performance.”

Nature

Nature reporter Neil Savage spotlights Prof. Michael Strano’s work developing a new technique to use nanoparticles to alter the biology of living plants. Savage writes that the new technique can allow for "the design of nanoparticles that carry gene-editing machinery to targeted areas to rewrite the plant’s genome and imbue it with properties such as pest and disease resistance,” writes Savage.

Popular Mechanics

Researchers at MIT have developed a wood-like plant material which could eventually serve as a viable wood substitute in various construction projects, reports Tim Newcomb for Popular Mechanics. Researchers adjust “chemicals in the growth process to precisely control the physical and mechanical properties, such as stiffness and density,” explains Newcomb.

Science

Using cellulose nanocrystals found in trees, MIT researchers have developed a new material that is both tough and strong, reports Kathryn Hulick for Science News for Students. Abhinav Rao PhD ’18 explains that he was inspired to create the material “by looking at what nature has to teach us.”

USA Today

MIT researchers are developing plants that can glow in the dark and provide light all night, reports USA Today. “The high-tech plants are embedded with nanoparticles that absorb light during the day or from other light sources like LEDs. After the lights go out, they slowly release that stored energy as luminescence over time.”

BBC News

Graduate student Ashley Beckwith speaks with BBC Radio 5 about her work developing a new concept for growing wood in the lab, as part of an effort to supplement traditional forestry methods. "We dedicate a lot of resources to growing whole plants, when all we use really is a very small portion of the plant,” says Beckwith. “So somehow we needed to figure out a more strategic way to reproduce materials that isn't so reliant on the land."

Wired

Writing for Wired, Keith Gillogly spotlights how MIT researchers have devised a new technique that could lead to the development of lab-grown wood and other biomaterials. “The hope is that, if this becomes a developed process for producing plant materials, you could alleviate some of [the] pressures on our agricultural lands. And with those reduced pressures, hopefully we can allow more spaces to remain wild and more forests to remain in place,” says graduate student Ashley Beckwith,

Axios

Axios reporter Bryan Walsh spotlights how MIT researchers have developed a new way for chemical signals in spinach leaves to transmit emails. “The system could help provide an early warning system for explosives or pollution, but really, we just want to know what the spinach are thinking,” writes Walsh.

Fast Company

Fast Company reporter Adele Peters spotlights Prof. Michael Strano’s work exploring how to embed nanoparticles into plant leaves, as part of an effort to see if they could serve as sensors. “We started asking the question, can we make living plants to do some of the functions that humans do by stamping things out of plastic and circuit boards—things that go into landfills?” says Strano.

Guardian

MIT researchers have developed a way to embed spinach leaves with sensors, which would allow them to serve as sensors that could monitor groundwater for contaminates, reports The Guardian. “Plants are very environmentally responsive,” explains Prof. Michael Strano. “If we tap into those chemical signaling pathways, there is a wealth of information to access.”

Fast Company

Fast Company reporter Kristin Toussaint writes about how MIT researchers have developed a new technique for growing wood-like plant tissues in the lab. The work, they say, is still in its very early stages, but provides a starting point to a new way of producing biomaterials. “It’s a process that eventually could help accelerate our shift away from plastics and other materials that end up in landfill toward materials that can biodegrade,” writes Toussaint.

TechCrunch

TechCrunch reporter Darrell Etherington writes that MIT researchers have developed a new method for growing plant tissues in a lab. “Potential applications of lab-grown plant material are significant,” writes Etherington, “and include possibilities in both agriculture and in construction materials.”

The Boston Globe

Writing for The Boston Globe, Linda Rodriguez McRobbie spotlights Cyborg Botany, a project at the Media Lab aimed to tap into how plants react to their environments. The researchers grew plants with “conductive wires in their intercellular spaces. That allowed the plants to become inconspicuous motion sensors, sending a signal via microelectrodes to a laptop every time someone walked by.”

WBUR

MIT researchers have developed a new technique to synthesize the feel-good molecules in the Kava plant root, reports Carey Goldberg for WBUR. “What we do in our lab is to actually start from plants that have thousands of years of use in traditional medicine," says Prof. Jing-Ke Weng. "We already know there's something in that plant that works to treat some illness."

Fast Company

MIT researchers are developing ways to transform plants into interfaces, reports Katharine Schwab for Fast Company. Schwab explains that the researchers hope to eventually be able to develop “plants that can transfer signals and act almost like a networked computer.”