The US Navy is developing a glue that turns on and off electronically

Illustration. Photo: US Navy

The U.S. Office of Naval Research (ONR) is funding development of a glue that does not collapse when soaked in water and can even be turned on and off with electricity.

Dr. Bruce Lee, an assistant professor of biomedical engineering at Michigan Technological University, is using a protein produced by mussels to create a reversible synthetic glue.

Like barnacles, mussels attach to rocks, docks and ship hulls—a natural occurrence called biofouling. Mussels secrete a combination of natural liquid superglues and stretchy fibers, called byssal threads, that works equally well in saltwater and freshwater; can stick to both hard and soft surfaces; and is strong enough to withstand the roughest sea conditions.

The secret behind mussels’ adhesive success is an amino acid called dihydroxyphenylalanine—DOPA, for short. A chemical relative of dopamine—the neurotransmitter that helps control the human brain’s pleasure and reward centers—DOPA is a critical ingredient in fastening the superglues and byssal threads to a location. It also enables mussel secretions to be both cohesive and adhesive—meaning they can adhere to themselves and other surfaces.

Lee and his research team blended DOPA with polymers such as polyester and rubber to create a synthetic glue that holds together when wet. Laboratory tests demonstrated this material can attach to a variety of surfaces, including metal, plastic and even flesh and bone.

“One very valuable quality of this synthetic glue is its versatility,” said Lee. “We can change the chemistry to make it as rigid or flexible as we need—while still maintaining its overall strength and durability.”

 

On/Off capability

 

The team is now trying to figure out how to use electrical currents to create a chemical “on-off” switch that temporarily changes DOPA molecules to make the synthetic adhesive sticky or non-sticky at will. So far, they’ve been able to accomplish this by tweaking the glue’s pH balance, but are still working to achieve this capability using electrical stimulation.

“This work is novel in the sense that there is no smart adhesive out there that can perform underwater,” said Lee. “The chemistry that we can potentially incorporate into the adhesive, causing it to reversibly bond and de-bond, is quite new.”

Lee envisions multiple uses for such a “smart glue”. It could bind underwater sensors and devices to the hulls of ships and submarines—or help unmanned vehicles dock along rocky coastlines or in remote locations.

There are also possible medical applications for an adhesive that can bind and un-bind at will. It could lead to new kinds of bandages that will stay attached when someone sweats or gets wet, and make it less painful to remove a dressing. The smart glue may even be used one day to attach prosthetic limbs and biometric sensors or seal surgical wounds.

For his adhesion efforts, Lee was named a 2016 winner within ONR’s Young Investigator Program, a prestigious grant awarded to scientists and engineers with exceptional promise for producing creative, state-of-the-art research that appears likely to advance naval capabilities.

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Posted on November 4, 2016 with tags , .

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