Becoming Invisible

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Becoming Invisible

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Alon Gorodetsky is creating materials that mimic the camouflage capabilities of squids that can change color, transparency and temperature. Learn how he figured out the secret of their skin and how it can be used for medicine, the military, smart fabrics and more. Transcript: [sci fi music] NATALIE TSO, HOST: What if you could change the color, transparency and temperature of your skin at any time? Well, if you're an octopus, you can. And Alon Gorodetsky, UCI associate professor of chemical and biomolecular engineering, with the help of this electron beam evaporation system, [SOUND OF ELECTRON BEAM EVAPORATION SYSTEM] is creating materials that imitate those camouflage capabilities so we can use them in smart fabrics. How did he get inspired by cephalopods? ALON GORODETSKY: Well, I actually did not know much about squid and cephalopods other than the fact that they're delicious. I went into a talk by a scientist named Roger Hanlon from the Marine Biological Laboratory, and there was a video he showed of an octopus basically popping out of an algae covered rock. And, you know, it was like something straight out of a science fiction movie. I basically said, okay, I'm going to drop half my research and start working on materials inspired by these animals. So this is much cooler than anything I was planning on doing. Literally, the science fiction aspect, it's like seeing a shapeshifter in real life. It's the equivalent of me backing up onto a file cabinet without really knowing what that is or having ever seen it, and then suddenly being indistinguishable from that file cabinet. That's how amazing their camouflage abilities are. TSO: Now his lab is known for figuring out exactly how a squid changes its color and transparency. They discover the structure in their skins that enabled them to change from transparent to colored states. Gorodetsky showed me squid inspirations in his lab from his collaborator Roger Hanlon at the Marine Biological Lab. GORODETSKY: So we actually keep little vials of squid skin in the lab for fun. What's amazing about this is, you know, you look at it and see that color almost completely disappears. The squid can control this neurophysiologically. TSO: Then he showed me the electron beam evaporation system. [SOUND OF ELECTRON BEAM EVAPORATION SYSTEM] GORODETSKY: This is where we do the depositions. So a deposition is when you take, let's say, a metal or an oxide, and then you heat it up until it turns into a vapor. And then that vapor will condense or deposit on some substrates or some flat surface and it’ll form a coating. So we were making the material with this machine. TSO: That's a key part of the process of making squid skin like material. It allows them to program the nanostructure and microstructure of the material so that it can change color and regulate the flow of heat. GORODETSKY: So we've been able to make materials that can change color and change transparency in a very similar way to squid skin. And we have been able to extend that to not work only in the visible, but to also work in the infrared. So you could change infrared transparency, let's say, and then change how infrared light or heat is transmitted or reflected. And that corresponds to a change in effective temperature. TSO: There are a lot of applications for material that can change temperature. GORODETSKY: Well, you can make warming devices, for example, for clinical applications. You can make clothes that adapt in response to changes in the environment to keep you comfortable. One thing that we played around with was making coffee cup covers, right? Or it's just kind of like a cup cozy that we put around paper cups. And for me, you know, I get up every morning, I have a nice hot cup of coffee, right? And it's always hard to get the temperature just right. So it's just something that will make my day a little bit brighter. TSO: A key discovery in making their squid skin like material was the discovery of the protein called reflectin in the squid cells. GORODETSKY: We found that these structures, these kind of plates, if you will, from this protein, were arranged in a specific way in the cells that could change color and transparency and had a particular refractive index gradient. And so the cells in the skin were using that idea of having very controlled changes in refractive index to enable their ability to go from transparent to colored. So we could take those refractive index distributions that you see in the cells and then translate them to material and actually get some of the same effects. And so we even have a video online where we have our material next to a squid underwater and you shine light on both and they're basically indistinguishable. TSO: Gorodetsky’s Lab has already been able to make prototypes of squid inspired materials that can change color, transparency and temperature. [sci fi music] GORODETSKY: We have made the materials washable and breathable. We've been integrating them ...

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