 Hi. Please introduce yourself. I'm Chris Haggerty. I'm representing organic paper jet printing today. All right. And you're printing displays or what are you doing? We're developing equipment that a display manufacturer would use to manufacture a television. And this promises to be more efficient and cost effective than present technologies. Is this printed display? This is a printed display. But what you're seeing actually, the actual display is here. It's a very small-scale device. It's a test device. And it's meant to illustrate our technology not so much shown here as shown here in that we can deposit any organic layer. Our primary market is called the emissive layer. The color chemical that UDC manufactures. But since our technology is its general purpose with regard to organic molecules, we were challenged by one prospective customer to deposit all the layers. And we did. And that was a stretch goal. We were very proud of it. So all the layers, what does that mean? There's nothing left to do? It means the whole thing? We didn't deposit the anode. That's part of the structure of the LED device. These are all the organic layers that comprise the color aspect of a pixel. And these graphs indicate that we are comparable to the present-day technology in every respect. Which color you are? We are the green. The incumbent technology is VTE, vacuum thermal evaporation. So we're on par or slightly better than VTE. And what all these EIL? There are different layers involved in the device stack. The EML is the emissive layer. That's the color layer. This is HBL's whole blocking, electron transport, electron injection. And you have kind of a counter on the other side, the electron blocking, whole transfer, whole injection. So we're basically, you're injecting holes in one side, electrons on the other side, exciting the emissive material in the middle. So I'm just a YouTuber. I'm not an expert, right? But these pixels look very precise and good. Everything's there. It's distorted. David, you're seeing it's actually distorted. And that's really having to do with this lens. The actual device is represented probably, our process is probably better represented in the more uniform area you see there. So you have precision? Everything's going? Everything's good? The idea of this technology is that you're printing only where you need the material to be. Whereas the incumbent technology deposits material over the entire surface. And you get material only where you want it by blocking it. So you mask it. And then the material that goes through the mask and deposits in a pixel. In this case, we deposit directly in the pixel with no mask. That's the essential economic proposition, maskless deposition. And so that's also cheaper because you would not use so much material. It is. It's true. It's in aggregate. Going up when I say aggregate, in other words, you need to replace an entire equipment set to get the advantage. So it's very disruptive technology. And it's going to take some years to develop it. We are seeking a customer that will help us develop it, actually. Here at the display week, I'm expecting to see a bunch of printed displays, no? Are there some? You will see very limited application of printed displays. Limited so far. Very limited. Yes. There are some prototypes BOE was showing up four years ago. But there was just prototype CSOT was showing some stuff. And, and the whole question is how soon mass production they were talking about $100 for 100 inch, you know, like getting the price down. The question is how, how good is the life of such a device? Because you want to use a TV for 10 years. That's right. Yes. And the thing here's the idea of this technology is that it enables you to make a more efficient LED. That we, our technology is compatible with the device structure that's known, but not yet in production. Side by side, top emission micro cavities, the technology name. And this technology is an enabler for that. All right. And you have colleagues talking about some other part here. How big is the company? UDC, the parent company is approximately a billion dollar enterprise. Billion? Yes. All right. What is this part here? This is UDC, the Universal Display Corporation, the materials company. And we they invested as well. In their materials business, they also invested in the tech, the underlying technology that makes printing, dry printing possible. So it's showing a clear is it quantum dots? No, no, what's shown here is that this is just the that this is actually a display of the color spectrum. Right here. Pardon me. This is a display of the color spectrum that measures the quality of color that humans can appreciate. It's just a graph. It's a sophisticated graph. All right. All right. Oh, do you want to speak about this? Yeah. Okay. Cool. Okay. Technology. Do you know about our technology? Yeah, please. Do you want to introduce yourself? Sure. Yeah. Jeff Silvernail, Universal Display and one of the engineers that worked for Universal Display. We're showing here the narrow spectra of our blue, red and green emitters that we can, you know, how narrow it is. And then for improving the efficiency of our devices, we're showing the plasmonic devices. Now we put a film on top of the OLED to enhance the light output. So we look at that as going to be the next generation of how we go from our phosphorescent energy efficiency to now the plasmonic to get more light out of the actual device. And UDC and OVJP has the same logo. Yes. UDC is the parent company. OVJP Corp is a subsidiary of ours. Holy on subsidiary. And they are based in Santa Clara. And we are based in Ewing, New Jersey. All right. So how far are the printed displays? How far in the future? Oh, they're probably, you have to talk to manufacturers because we're not a manufacturer, probably somewhere on the order of three to five years. So okay. Okay. Yeah, three to five. That sounds that's very soon in display world. I think so. Right? Yes. That's just one display week for me because probably going to be more like a gen four type size to then expanding it to be maybe a little bit larger, but we're still there's still a lot of development that needs to take place. The first generation is not going to be the 85 inch or 100 inch AK displays. No, you have the technology has to be developed. There's a there's a there's a thing that device manufacturers go through. It's integration with process. So this is an entirely new process. It has to be vetted against the customer's device and all the interactions with the rest of the equipment in the line. So it's going to we need we need a customer that can work with us in that capacity. And here's your presentation with Charles here. And I guess it's a lot of colleagues here in the industry. Everybody's checking the latest and trying to get to the next level. Yep. That's the idea. You bet. 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