Nature's Octopus Inspired a New Smart Gel That Can Dynamically Change Shape

The 3D-printed material can be used for next-generation displays as well as new designs in military camouflage and soft robotics.

3 Min Read
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Scientists consider “smart” materials that can dynamically change in response to stimuli as the future of materials science and what’s called 4D printing, paving the way for numerous new applications.

To that end, researchers at Rutgers University have developed a 3D-printed smart gel that changes shape in response to light in a way that creates a material akin to an artificial muscle.

The team, led by Howon Lee, an assistant professor in the Department of Mechanical and Aerospace Engineering at Rutgers University-New Brunswick, was inspired to create the material by the color-changing skin of cephalopods such as cuttlefish, octopuses, and squids.

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This octopus has color-changing cells, called chromatophores, in its skin, a phenomenon that inspired Rutgers engineers to develop a hydrogel that has similar behavior in response to light.

These creatures use dynamic changes in appearance as camouflage from prey in their natural habitats as well as to communicate, enacting this change using thousands of color-changing cells--called chromatophores--that are present in their skin.

Bio-Inspired Reaction

The hydrogel developed by the team mimics the same transformation by sensing light and changing its shape in response, researchers said. They achieved this response by integrating a light-sensing nanomaterial in the hydrogel, turning it into an “artificial muscle” that contracts in response to changes in light, Lee said.

Hydrogels are materials that can keep their shape and solid constitution even though they contain water, and are already used in a number of commercial products, including contact lenses and diapers. They also occur naturally inside the human body, making the material suited for biomedical applications.

Related:New Process Allows 4D-Printed Objects to Resume Original Shape

The team also envisions the smart gel—which, when combined with a 3D-printed stretchy material changes color, resulting in a camouflage effect—could be useful in next-generation display technology, Lee said.

“Electronic displays are everywhere and despite remarkable advances, such as becoming thinner, larger, and brighter, they’re based on rigid materials, limiting the shapes they can take and how they interface with 3D surfaces,” he said in a press statement. “Our research supports a new engineering approach featuring camouflage that can be added to soft materials and create flexible, colorful displays.”

Researchers published a paper on their work in the journal ACS Applied Materials & Interfaces. Other applications envisioned for the material include new military camouflage designs as well as soft robotics.

The team plans to continue its work to further develop the material to improve its sensitivity to stimuli as well as its response time, Lee said. They also want to make it more durable as well as find packaging suited to more widescale production, he said.

Elizabeth Montalbano is a freelance writer who has written about technology and culture for more than 20 years. She has lived and worked as a professional journalist in Phoenix, San Francisco, and New York City. In her free time, she enjoys surfing, traveling, music, yoga, and cooking. She currently resides in a village on the southwest coast of Portugal.

About the Author

Elizabeth Montalbano

Elizabeth Montalbano has been a professional journalist covering the telecommunications, technology and business sectors since 1998. Prior to her work at Design News, she has previously written news, features and opinion articles for Phone+, CRN (now ChannelWeb), the IDG News Service, Informationweek and CNNMoney, among other publications. Born and raised in Philadelphia, she also has lived and worked in Phoenix, Arizona; San Francisco and New York City. She currently resides in Lagos, Portugal. Montalbano has a bachelor's degree in English/Communications from De Sales University and a master's degree from Arizona State University in creative writing.

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