You choose, we deliver
If you are interested in this story, you might be interested in others from The Journal Gazette. Go to www.journalgazette.net/newsletter and pick the subjects you care most about. We'll deliver your customized daily news report at 3 a.m. Fort Wayne time, right to your email.

Science & Tech

  • Yahoo replaces Google as Firefox's default search
    SAN FRANCISCO (AP) — Yahoo will supplant Google's search engine on Firefox's Web browser in the U.S., signaling Yahoo's resolve to regain some of the ground that it has lost in the most lucrative part of the Internet's ad market.
  • One mom's mission to encourage girls in science
    LANGHORNE, Pa. (AP) — Kelly Mathews is on a mission — to get more girls interested in STEM.
  • Scientists 'confident' comet lander will wake up
    There is a strong chance Europe's comet lander will wake up from hibernation as it nears the sun, raising hopes for a second series of scientific measurements from the surface next year, scientists involved in the mission said Monday.
Advertisement
Associated Press
Borrowing from the ancient Japanese art of origami, scientists and engineers at Harvard and MIT created self-assembling paper robots that can walk away with tiny batteries and motors.

Robots take cue from origami

Paper machines can unfold from 2-D to 3-D

Thanks to the ancient art of paper folding, a little scientific ingenuity, and a whole mess of Shrinky Dinks, researchers have designed flat paper robots that can fold themselves into 3-D shapes and walk away.

Their results, published Thursday in Science, point to a future of self-assembling bots that can be built and transported at lower costs than traditional robots, as well as used in tighter spaces. And their paper isn’t even the only origami-inspired innovation in Science this week.

Why origami? In the past couple of decades, mathematicians and artists alike have been pushing the boundaries of the practice. Now we have computer programs that can figure out the folding pattern to create basically any design. These simulations have revealed that paper folding produces some interesting mechanical properties, and engineers have taken note.

These new robots are made of paper layered with Shrinky Dinks, a plastic (sold as a children’s toy) that shrinks when heated. The researchers snaked circuits into the plastic in the spots where they wanted the robot to bend as it assembled. When the circuits heat the plastic, the robot is pulled into its final shape. With the help of a motor and battery, it then walks away.

A motor and battery mean that the bot is never truly flat. And the thickness of the paper sheets, while only around a tenth of an inch, limit the flatness of the robot as well.

But Sam Felton, a doctoral candidate at Harvard University’s School of Engineering and Applied Sciences and the Wyss Institute for Biologically Inspired Engineering and the study’s lead author, is confident that flat electronics will be easier to come by soon.

“People are already 3-D printing batteries that are very flat,” he said. “We’ll eventually have options for creating 2-D versions of all the components we need.”

And while this robot can only fold itself into a single shape, different materials could hypothetically produce a more versatile model.

And some of those materials are already on the way: In another study published in Thursday’s Science, researchers report on their work creating novel new materials inspired by origami.

“A single sheet of paper has certain properties, but when you fold it into a particular pattern, it suddenly has new properties,” co-author and University of Massachusetts Amherst physicist Christian Santangelo said. “So the idea is that you could use paper folding to make new materials, and ones with the properties you want – even if they aren’t found in nature.”

In one example, Santangelo said, the team – made up of scientists from Cornell, the University of Massachusetts, Western New England University and Amherst – created a folded material with little points that could be “popped” in or out individually.

“We found that you could take one of these bits and pop it into the opposite direction, and it changed the mechanical properties,” Santangelo said. A line popped in one direction became a hinge, while popping the same line of points in the opposite direction created a rigid, fixed line.

But like the first team of researchers, Santangelo and his collaborators have robots in mind. “Robotics is definitely the most obvious use,” he said.

Lead author Jesse Silverberg, a grad student in physics at Cornell, suggested that folded paper materials might have a place in soft robotics. An increasingly popular field, soft robotics creates robots made entirely with flexible materials. Without hard edges, they can move into tight spaces with unique flexibility.

The two research groups are definitely aware of each other, and collaboration isn’t out of the question.

“The bottom line is that the potential applications of paper folding are just really cool,” Silverberg said, “and I think it’s safe to say that the future is going to be awesome.”

Advertisement