 Hi. So please introduce yourself. We are 806 Technology Limited. What we are doing is we are doing the flexible rechargeable lithium battery. This is battery. This is actually the battery so you can see that we can do the bandable and even while we do some like operate it. Nice. It lights up. It lights on and then while it lights on and we do the bandable curving it still works and you can see there is no damage in the battery. And you say textile based. Yes. Flexible. How does that work? Textile based. Actually what we are doing is that we replace the metal foil in the traditional lithium battery by our conductive test style. These are the conductive test style. So there's like copper here. Nickel. Nickel. Composite. Yeah. Our technology is that we can like deposit different kind of metals into the test style to make it conductive so that the conductive test style can be used to make the lithium battery. And you got the price. The best invention in the Geneva Convention. Yes. Of inventors. Here in Romania at grand price and here this is also in where is this? Yeah. You got some prices. So people think that you're gonna change the world. I would not say people think that we're gonna change the world but then this is an innovative technology that is coming new and then actually flexible battery is quite new in the market as well. But in 2023 the economic forum they also ranked flexible battery is one of the top 10 emerging technologies. Therefore we think that there is a huge potential in this market especially when wearable electronics becoming more and more commonly found in the market. I want this in my t-shirt. You can technically. So how about recharging? It's actually rechargeable. Already now? Yeah. It's actually rechargeable. For a battery while we do our testing we recharge a thousand cycles the capacity didn't drop lower than 80%. Really? Yes. So it's the same like the battery in my phone. It's actually same as the lithium battery that using in the daily devices. In the Tesla. The same. Well in principle it is. In principle. How about how heavy is this one? You can take a look. You can feel it. So what is this like 12 grams? 8? We didn't really have weight on it but then because inside it's just test out it's just fabric. Therefore in general in the same capacity or in the same area it is lighter than the traditional battery at least 50%. 50% lighter. Yes. Than a traditional battery but doesn't mean 50% less power. It doesn't mean 50% less power. At the same power it's lighter. Yes. Alright. So my next Tesla is going to be half the weight or you're not going to put in a Tesla? Currently we do not have a plan to. It's too expensive? Yeah. Because one of it is too expensive and then if we do the big battery like the Tesla one is actually losing the flexibility nature that we are really proud of. Therefore we could really target to the wearable electronic market at this moment. Can you take this out to have a better look on the camera or you want to protect it? Yeah. Just be careful. Yeah. So it's how do you do the sandwich? Which go where? How does it work in there? It's actually in working as I this is you can see that there is the anal layer and then there's there's a kettle layer. Basically one kettle layer and then in between there is need to be a separator. This by a no-woofer fabric and then one anal layer. Other than that there is encapsulation. Then it would be the simple battery texture, the structure. Cool. So so all these textiles in the future will be batteries. All these Tesla in the future can be batteries. Can be batteries. Yes. We are actually enabling the possibility of Tesla products and then making it also evolving the traditional image that people think about Tesla. It actually can be a lot of things. So you hold your whole shirt and your whole jacket could be battery. It could be conductive. The whole of it? It's not. Just one part in the corner. What is the idea? Indeed if we do battery other than making the conductive test we also need an encapsulation. Because we need an encapsulation to make sure that. What is this aluminum or what do you use there? Encapsulation. What is around? Clearly we are using the aluminum plastic. Some kind of plastic. So you would look like... It's very fashionable to have this color. So it's fine. I would like to have this t-shirt in this color. So it depends, right? Yeah it depends. So you've been working on this for a few years now? Actually for this technology the team that we are from, the research group that we are from in the Hong Kong Polytechnic University has been working on this technology since 2009. And then we started this idea to do the battery after we went to the Geneva Innovation Conference at the competition 2014-2019. Then we started to try to commercialize this technology in 2022. Nice. All right. 2022 that's like recently. Yeah we just actually entered the Hong Kong Science Park in 2022. So this is like a one-year mark. So what's happened? Like does that mean enter the market? Something will be available to buy? Currently it's not available to do the mass production. Yes so what we are doing is that we keep on actively having full development product with different kind of an application manufacturer or brands so that we also need to educate the general public that there is this kind of technology. Because actually for the general public what they think about battery is still rigid, hot with a case or like the power band that we are using. However this is something that new and have potential that can be bring a different in the market. I think you should partner with Uniqlo or with a Benetton or somebody. And then they can have air-conditioned t-shirts. Actually when you sweat too much it will cool you off somehow. It's actually a really good idea and this is what one of the application that we hopefully can do in the future because what we need to do is that we also need to increase the energy capacity of the battery. Currently what you are seeing is a single ASL. So how long it will work this one? It depends on the application. For example this one the capacity is around 80 to 100 mAh. So if we do some sensing application like putting in a sensor or GPS it actually can work a lot more than like a whole day or even a week. But then if for like cooling application normally what they're using is at least like one thousand five hundred or about for the capacity. So you need 10 of those? Yeah we need 10 of those or we need to multiply it by developing the tandem cell. So basically here is just one layer of cathode, one separator and one anode. But then if you multiply it then the capacity will be multiplied as well. So this is what the next step of what we are developing. Cool. And you combine it with let's say I'm coming here on your back. Should be a solar panel here also and should charge it with the Sun? It can, it can because we are actually energy storage. So with like if we really connect with a solar panel this can be the battery, the energy storage of a solar panel. And then you can call that with the Sun. Nice. Cool. That's awesome. Okay so I've seen some other flexible batteries in the market before. I'm not in the market but in trade shows. And with the other way that they do nobody else does with textiles. So far at least we are confident that in Hong Kong we are the only one that using test cells to do the flexible battery. We cannot guarantee that there is no one in the global. But what do they do the other ones? What we know for example Samsung or Panasonic what they're using because they also long like like you said exhibits the flexible battery prototypes in different trade shows. So what they were doing is that they still use the metal foil to do the cathode and enolayer. But they improve it by some like a different kind of mechanical treatment for example. They will punch holes in the metal foil so that it become bandable or they pre-band it so that it is still in that shape with like bandable or curved batteries. Therefore what we are saying that it's not really truly hundred percent bandable like us. What we are doing is that because we replace it by a test cell therefore what we can be hundred percent bandable like this. The banding radius is less than one millimeters. And it's not breaking anything. It's not breaking anything. And it feels like a textile of your shirt. It's the same kind of a flexibility. The inside material is actually exactly the same time for sure because with the encapsulation so the hand feel is a little bit more like limited by the encapsulation only. It's limited by the encapsulation only. All right. Cool. All right. Thanks a lot. So looking forward to mass production and next time I come back to Hong Kong I can go to Uniqlo store and it will be in the cooling jacket and air-conditioned everything. Hopefully we will be launching it very soon then you can really buy in the market.