Multi-layer graphene can provide a two-fold defense against mosquito bites, research finds.
According to the study in PNAS, the ultra-thin yet strong material acts as a barrier that mosquitoes can’t bite through. The graphene also blocks chemical signals mosquitoes use to sense that a blood meal is near, blunting their urge to bite in the first place.
The findings suggest that clothing with a graphene lining could be an effective mosquito barrier, the researchers say.
“Mosquitoes are important vectors for disease all over the world, and there’s a lot of interest in non-chemical mosquito bite protection,” says senior author Robert Hurt, a professor in the School of Engineering at Brown University and leader of Brown’s Superfund Research Program.
“With the graphene, the mosquitoes weren’t even landing on the skin patch—they just didn’t seem to care.”
“We had been working on fabrics that incorporate graphene as a barrier against toxic chemicals, and we started thinking about what else the approach might be good for. We thought maybe graphene could provide mosquito bite protection as well.”
Graphene and cheesecloth
To find out if it would work, the researchers recruited some brave participants willing to get a few mosquito bites in the name of science. The participants placed their arms in a mosquito-filled enclosure so that only a small patch of their skin was available to mosquitoes for biting. The researchers bred the mosquitoes in the lab so they could confirm they were disease-free.
The researchers compared the number of bites participants received on their bare skin, on skin covered in cheesecloth, and on skin covered with graphene oxide (GO) films sheathed in cheesecloth. GO is a graphene derivative that can form films large enough for macro-scale applications.
It was readily apparent that graphene was a bite deterrent, the researchers say. When skin was covered by dry GO films, participants didn’t get a single bite, while bare and cheesecloth-covered skin was readily feasted upon. What was surprising, the researchers say, was that the mosquitoes completely changed their behavior in the presence of the graphene-covered arm.
“With the graphene, the mosquitoes weren’t even landing on the skin patch—they just didn’t seem to care,” says Cintia Castillho, a PhD student and the study’s lead author. “We had assumed that graphene would be a physical barrier to biting through puncture resistance, but when we saw these experiments we started to think that it was also a chemical barrier that prevents mosquitoes from sensing that someone is there.”
To confirm the chemical barrier idea, the researchers dabbed some human sweat onto the outside of a graphene barrier. With the chemical on the other side of the graphene, the mosquitoes flocked to the patch in much the same way they flocked to bare skin.
Make it strong when wet
Other experiments showed that GO can also provide puncture resistance—but not all the time. Using a tiny needle as a stand-in for a mosquito’s proboscis, as well as computer simulations of the bite process, the researchers showed that mosquitoes simply can’t generate enough force to puncture GO. But that only applied when the GO is dry.
The simulations found that GO would be vulnerable to puncture when it was saturated with water. And sure enough, experiments showed that mosquitoes could bite through wet GO. However, another form of GO with reduced oxygen content (called rGO) provided a bite barrier when both wet and dry.
As a next step, researchers will try to find a way to stabilize the GO so that it’s tougher when wet, Hurt says. That’s because GO has a distinct advantage over rGO when it comes to wearable technology.
“GO is breathable, meaning you can sweat through it, while rGO isn’t,” Hurt says. “So our preferred embodiment of this technology would be to find a way to stabilize GO mechanically so that is remains strong when wet. This next step would give us the full benefits of breathability and bite protection.”
All told, the researchers say, the study suggests that properly engineered graphene linings could help make mosquito protective clothing.
Additional coauthors are from Brown. The National Institute of Environmental Health Sciences; the Superfund Research Program; and the National Science Foundation funded the work.
Source: Brown University
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