 So we're here with a Play Nitride. Here with a special display. This is a transparent special display. So hello, so who are you? I'm Falcon Liu. I'm the marketing director of Play Nitride. So is this hologram? No, this is micro LED display. Micro LED? Yes, we use the very micro size LED chips to make the display. So is this the new style of display that people are talking about? Micro LED? Yes, that's great. So we use, this is, use RGB, three different LED chips to make the display, direct display. What's the difference between this and this? The two difference is about the size and the resolution. So that size is 128 by 128 and right side is 256 by 256. So what's the pixel density right now? Okay, the pixel density right side, it's higher. So we call 232 dpi dot per inch. So that means that in one inch there will be 232 LED chips there. Which is amazing, how does it work? Okay, so how do you do micro LED? Okay, how is it transparent? I didn't know it's supposed to be transparent, right? Okay, so the first is about the transparent because micro LED chip will be very small and so most of the pixel is empty. So you can see through that. So that's why it is transparent. And for how to make it, people use the, would produce the AP wafer with the chip and then transfer to the substrate to make the micro LED display. So in the future, what's the application right here? So I thought micro LED was going to be like the OLED killer? Well, for like TV or something? The application, actually for the micro LED applications, all kind of display, not only limited to current display applications but also other future applications for automotive, for outdoor, for any wearable need high brightness, high contrast. But OLED is different approaches. So currently OLED, they are starting earlier, so they already have some market there. But the killer we don't know yet because the application requirement maybe for the market maybe will be different. So where are you based? We're based in Shenzhou, Taiwan. And OLED is 30 year anniversary last year, right? Yes. How long, how old is micro LED technology? Okay, if only talk about micro LED itself, maybe less than five years. Only five years. Yes, but for the LED technology, more than 50 years. So we based on the LED technology, the whole, the longest history to make the micro LED chips. Is there any chance that micro LED displays will have one or two or five pixel die? Or is it the same chance that this will happen compared to OLED? Yeah, you mean for the defect pixels? The life of the pixel, not defect also. The life? Okay, because the micro LED is inorganic, so there will be no reliability concern like OLED because OLED is organic. So there's no need to make a very perfect encapsulation to protect the display. So it can be, it can be just open? Yes. And nothing will happen? No, nothing will happen. It will last for years and years and years? Yes, it will be. At least with our testing for more than two years, there's nothing strange in the open area. How many people work with the micro LED? If for our company, we only have 120 people. 120? Yeah, but for this industry, I believe lots of people, they're working on micro LEDs. Samsung is working on this? Yeah, they have showed that the wall in CS already. What's the difference between what Samsung have and what you have? Well, you don't have a big screen like this yet? Their application is for the big screen TV, so we don't have that kind of facility and also some of the tiring technologies. So that's different ways or approaches to make the micro LED displays. Is it possible that the Samsung micro LED TV is very expensive? For any kind of new technology, it will be very expensive. Just like OLED in the beginning, it's also very expensive before. But gradually, it will reduce the cost. How's it going to compare in price compared with OLED? Now, it's difficult to say right now. But in the future, in five years, maybe it will be the same or even lower.