 So we're here with the Quantum Solutions. Hello. Hi. Hi, so who are you? My name is Abdullah. I'm from Quantum Solutions. We are a startup company based in Saudi Arabia. And we are recently incorporated last year. So we are a company that manufactures and develop materials called Probsky Quantum Dots. So you make these? Yes, we actually make these Probsky Quantum Dots into different colors ranging from blue, green, orange, or red. But our main focus right now is LCT application. We're focusing on green. So the green is basically we have this highest efficiency and higher stability for LCT application. So we're trying to replace the current LCT technology by replacing the white colors in the LCT and replacing them with Quantum Dots with this kind of films. As you can see here, we have our Quantum Dots into this polymer film. And by replacing this in the LCTs, we can ensure that we have a wider color gamut. Yeah. So what are you showing here? So right here, we are showing here the difference between a normal Quantum Dots without encapsulation and how they degrade at higher temperatures compared to what we have recently achieved. By encapsulating and covering these Quantum Dots, we can actually, it feeds higher photoluminescence emission, even at higher temperatures. So what's special about your Quantum Dots compared to the rest of the market? So the current market, their efficiency is high, but their emission width is really broad. What we have is our emission is much narrower. So it goes down to 15 nanometers in emission width. Compared to what we have right now in the market, it's like up down to 30 nanometers to 40 nanometers. 15 nanometers. Yes. You mean the smallest? This is the smallest we have achieved. And this is the one? Yes, actually, this is like, we're not the only one that achieved it. There are other research labs have done that, but we are actually the one that commercialized it and also ensured that it's stable as a product. Why is it important to have this 15 nanometers? Because if you want to make a wider-colored gamut, you need to ensure that you have exactly pure color of green. By ensuring that you have green colors, when you mix it with other colors, the RGB colors, you can ensure that you have exactly what you want. Like, if you want to mix green and red to achieve, for example, orange, you need exactly or yellow. You get exactly, exactly yellow. So where did these materials come from? Is it like from the mines somewhere? So these materials, we don't buy them from a company that also, they actually come from mines. So this is a natural material. So they're organic? Yeah, some of them are organic, some of them are inorganic, but they're based in, they come from nature. They are actually not synthetic. So then we don't make them like from scratch. So they actually like, they mine it. So what's your experience right here at the SID display? It's great, actually. It's actually really awesome. I've talked to a lot of people, a lot of interested people from different companies that are interested in our technology. And we have asked for a business card to exchange emails for collaboration and they're asking for us to send them some samples for them to test and verify. And hopefully we can work with them and we also hope to sell the materials to them because we are, as a company, we want to supply as many people as we could to make actually enough revenue over a year. So it's going to be for Quantum.tvs? Yes, Quantum.tvs. Something else? It could be for other things like LEDs and other display and it could be for like imaging for biological application, like bio-imaging. So there are a lot of applications and as we talk to customers like this here today, we actually discover more applications. Is Quantum.tvs as good TVs, LCDs are going to be as good as OLEDs? So right now there's a big debate between OLED and Quantum.tvs. But so one of the main advantage of Quantum.tvs compared to OLED is their color gamut is much wiser. And also the processability and how much it costs to manufacturers, Quantum.tvs is much cheaper. It's just one layer on the LCD you change, right? That's it, basically. Which layer? This layer, this polymer layer, yes. Which is the wet layer? So this is the polymer layer. So basically by changing the color, the LCD currently we have another layer called phosphor. By replacing that and putting this film, you can basically have it done as a Quantum.tv. So it's really easy, it's basically a film. It's a static film, it doesn't do air. It doesn't do air? It doesn't have pixels or something? Nothing, nothing. It's a film that emits everywhere. And then it goes through the pixels and then the pixels, it can filter the colors into different colors, red and green and blue. So your business would be supplying this material? Yeah, so we are supplying these materials specifically green to display manufacturers into different forms, like a film film, a powder, or solution in organic or organic solution. So depending on their needs, we can supply them with the requirements. And over there in Saudi Arabia? Yes. How many people in your team? So we have actually a small team, mainly three people in our company. You're a startup, right? Yeah, we are startups, really. We just started last year. What could happen next? So what could be next is that we work on a big company that will supply, we will supply them with the materials until they found that if these materials could be applicable in a large scale, so either we can continue our collaboration or they could acquire us, which is gonna be great.