 So we're here with Kamura Tech and who are you? I'm president of Kamura Tech. And what are we looking at here? Because we made a kind of printed electrodes to assemble some components on it and this is very thin and light. That's why to demonstrate that by printing on the balloon. And here what are we looking at? This is the same there? The same thickness is almost two micrometers film and they even put the circuit on it. And I hope this is useful against future biotechnology or biosensors also. Biotechnology, so patches we put on the skin and so how soon is this available? I hope so within five years. Within five years? Why so long? Can I do faster? No already we can attach the film on the balloon but the skin or health care things still need a long time. Because there's a lot of movements and it's better not to break the system right? That's right. So you have more challenges to fix? What are you saying there? Is this part of your expanding technology? We are producing machine also, printing machine. This very small print one meter. This type of output from this printer, even gravity offset printing, multiple in one machine. Silver nano? Copper nano what do you do? Our machine is now available for silver nano, copper nano, silver nano wire and conductive polymer like P.PSS things or even organic LED. And in future of course by printing MLCC or organic transistor for the future. And that is going to be used for the touch panel or additional layer, optical layer also. Nice. And what is this thing up here? What is that? This is the visual of the transistor and the filter. It's made by gravity offset printing. Actually in between these two electrodes there are wire mesh here. But the wire mesh line and space is 5 micron and 300 micron space. That's why almost invisible. And still we continue to developing the kind of finer size of the electrodes. But at this moment the limit is 5 micron wire mesh. So this invisible transparent, it's just light in the air. Yeah. It's with nothing nearly. There is something. But how does it work? It connects and... Yeah, it connects in between and here is a wire mesh and this side also another wire mesh. And both sides to conduct the electric power from one side to another side. That's why this LED turn on. Nice. So this is going to be bio? It's going to be what else? This is going to be the conductive film. Actually this kind of wire mesh is here. And by using this kind of 5 micrometer line and space 300 micrometer then you can make the kind of film, conductive, almost transparent conductive film by using this technology. Nice. And that will enable to EMI shield film or even in future touch panel film also.