 the ID TechX trade show here, and who are you? My name's Andy Baer, I'm a product manager for Panasonic, and we're here talking about our developmental thermal setting resin technology that we've used to make a stretchable film that is incredibly durable and heat resistance and chemical resistance. So this film, we've got both film, as you can see the base film, and we've got a conductive ink made of the same material. So we're promoting these materials and looking for partners to help us to bring these to market. So, and right here you're also showing in a different way? Yes, so what we've got here is a shiatsu massager, of course for a Japanese company, showing the durability and flexibility of this construction on a stretchable family. So we talk about stretchable materials. Right. What is the material you have? All right, so over here, this is the base film. This is a 50 micron film. We can make it from 25 to 150 microns, and you can see it's a stretchable film. Most uniquely, this is thermal setting chemistry. This is not thermal plastic, so it's high temperature and chemical resistance. And it is slowly, because it's stress releasing, it slowly relaxes over time. And we'll go back to its original shape with virtually no hysteresis. Next to it is a conductive transparent electrode. What does that mean? That means this is the base film coated with carbon nanotubes that could be used to construct a display. A stretchable. This film could be used with other materials to potentially construct a stretchable or bendable or foldable display. So you can do a display like this maybe. Using this material in combination with other materials. And then over here on the right, we've taken this base film and applied the conductive paste to make a silver paste. Very high temperature, very high durability. Very unique feel to a Disney. All this stuff, where would it go? What could be? We think that this can go in a variety of applications, including medical devices, wearables, automotive, aerospace, and even perhaps PV or renewable energies. With human electronics? Absolutely, absolutely. And we're looking for partners to help us bring this unique material out to market. So are you finding those partners around here? Absolutely, in addition to ones that we're already working for. Is it a good trade show for that? It's been phenomenal for us. So how is this industry, is this what's called, this is printed electronics? This is printed electronics, that's correct. So how is your experience with that? How is it going? What are we looking at here, for example? Okay, sure, sure. So what we're showing here, this is actually, we're actually showing a LED mounted. That was an LED mounted on a paste of the conductive film. So here's, again, it's showing the elastomeric film compared to a polyester or a urethane material. And you see the other ones deform after stretching and our material returns its shape. This is comparing a urethane film in solder, which of course gets all boogery and melts. And our film here will then go into the solder pot, watch in a second, he lifts it up and it retains its shape and its integrity. So with compatibility with existing high-temperature assembly processes, as well as potential high-temperature applications. So how do you find all these new materials? You search everywhere, how does it work? These new materials were invented in our R&D departments in Japan. So this is a very, there's no other material like it around. So nobody has this. Nobody has this. Only Panasonic. Only Panasonic has this developmental material. Is it new? It's very new. Thermosetting, non-silicone resin technology. So this industry, the printed electronics industry, potentially is going to grow. There's going to be lots of stuff happening, right? Absolutely, absolutely. And we consider this to be an enabling technology because of its high-temperature, chemical resistance and durability. So we think this is one of the things it's going to take and really help wearables like shoes and clothing and medical devices really hit the mainstream. So what kind of potential partners are you looking for here? I'm going to be a little evasive. Leaders in any of those industries I mentioned that would like to come work with us. We want to work with advanced engineering groups. We're not here to replace existing TPU. We're actually here to help address the constraints that we've got with those existing materials.