 So I'm Roger Whitby, CEO of Nth Degree. We produce printed LEDs in various formats. And you're doing printed energy anywhere? Yes, so they're printed batteries. So we do both printed batteries and printed LEDs. And we have them in a number of different formats. We have them as a strip light. We have them integrated into products. This is a medical device. So the controller delivers power to the printed lights and treats various conditions such as acne, psoriasis, muscles etc. So what does it do with the lights medically? Medically the light treats, it kills bacteria. It adds energy to muscles and increases the rate of healing of wounds etc. And it's flexible? And it's flexible. It's very flexible. So it conforms to the skin. And it just lights up your skin? Yes. And do you also have your flexible battery going on there? This is a coin cell battery. We use the flexible battery in a different way. So we have that in race timing devices for instance. So imagine a marathon runner having the number on their jersey as they run. They have an RFID tag built into that number and the battery runs that active RFID tag. So then throughout the whole run you can see on the map how far they are and everything. That's right, it's a way of tracking the runners and timing them for the race. And obviously a very flexible product. So normal batteries can't do this. So just a battery right here? It's a battery, exactly. So nth degree battery? We have two companies here today. We're representing printed energy with the batteries and nth degree with the lights. So it's not lithium ion right? Or is it? No, it's very safe non-toxic components. It's manganese and zinc based. What are these manganese? They're the anode and cathode materials. What's the capacity of performance? These are low energy batteries there for IoT type devices, sensors. Things that need a very small amount of energy. Do you quantify in milliamps? In milliamps, yes. So how much would be in something like this? It's a factor of the area. So 10 milliamp hours for instance for a small battery. So totally flexible and great to use as enough power to run the whole marathon? Correct. Which is like four, five, six hours. Oh yes, it will operate for much longer than that. But it's for low power devices. And you would have a timer on in a timer kind of fashion? There's a reader that communicates with the RFID tag. Do you have some other demonstrations of the batteries? Because you have all these different kind of shapes? Yes, any shape. The major advantage of these batteries is that it doesn't take up space and weight in the product. So it can conform to the requirement of the device that it's powering. What are you showing here? So Integree has partnered with a number of companies to develop some really innovative devices. So Colgate for instance have launched a tooth whitening product that incorporates our printed LED lights. So this is a way of getting the light right inside the mouth, right onto the surface of the teeth. So what's happening inside here? This is your tech to do all this light? Correct. And that tech is within the mouth that activates a paste with which whitens the teeth. So it's a particular wavelength. You put some kind of whitening paste in there? Apply that inside the device, put it inside your mouth and that will give you the... It totally works? It totally works, absolutely. I don't think Colgate would be launching a product that didn't work. So its mass production is all over the place? This is mass production and the skin patch from Careware is also available in the market. So different shapes for different applications and this is really targeting the opioid epidemic. So by treating pain early it avoids using drugs to relieve the pain. So 45% of professional sports teams in America are now using this for both pre-match treatment and post-match treatment. The controller comes off. This is technology that can be used on the run rather than going to a clinic and having this applied with a traditional large machine plugged into the wall. How does it help with pain? It's a complicated set of chemical reactions within the body. It's a whole area called photobiomodulation and it helps, primarily it helps with the flow of blood and the increased rate of healing. It totally works? It totally works. There's a whole field of medicine based around this. Arthritis is good for that? It's good for arthritis. So different wavelengths do different things. The blue wavelength will kill bacteria so it's good for acne and psoriasis. The red wavelengths work on muscles and strains and increasing the blood flow. Green wavelengths work for cosmetics so helping with wrinkles etc. So there's a whole range of products. This is science? This is science. It's not a pseudo-science. It's not pseudo-science. It's like actually like if you went to a hospital it would be one of the things that would work. Laser treatment, low level laser treatment is a very well established technology and that's essentially what this is. It's just freedom from your wall plug. You're able to use this on the go. How long is the battery? This is a rechargeable battery. The dosage is half an hour and so the battery and controller regulates that dosage. The patches themselves are reusable. There are about 20 uses per time. 20 use and what's the price? You buy a kit so it depends how you want to configure that kit. The starting price is a couple of hundred dollars and then you buy the patches as you use them. They're about forty dollars. Alright so just two dollars? Just two dollars a use. Two dollars a use or two dollars for twenty uses? Two dollars per application. 40 dollars per patch. Alright so where are you based? We're based in Tempe, Arizona. Both Instagram and Printed Energy are based in Tempe. Alright and the Printed Energy, the flexible battery is going to be huge? It is, yes. I mean as the internet of things expands a lot of these devices function much better if they're active, if they have a little bit of power to help them. So active RFID tags, temperature sensors, all sorts of applications.