 Hello, I'm here at the ID TechEx show with TNO. Tell us what TNO does briefly. TNO is a research institute from the Netherlands where we are bridging the gap between universities and the industry. And within my department we work on additive manufacturing. We've already been working on that for over 20 years when it was still rapid prototyping. Right. For sure it's this. So this is actually a large FDM printer from one of our partners. Right. A big rep. So they've built these very large FDM printers with which you can print large products. Right. Nice. So we now started a partnership also to look at SLS printing actually to also bring that to the market. So what, how did TNO help this company get to market with this product? What did you provide? Actually they already brought this to the market themselves. They are actually a quite new partner. Right. So they already did this without us. Right. And now we're actually looking at SLS. We have some concepts for industrial SLS. Okay. And so we're doing that together because they have a lot of partners in the market. Right. Nice. Yeah. Great. So what else do you have to show us on your booth? What do you TNO do? So at TNO we work on 3D printed structural electronics. Right. We do that both in selective laser centering when you build from a polymer powder. So this is an example of such a product. This is actually without the electronics. Is this printed in one part or is it assembled from one part? You don't need to assemble it. Right. And actually so it can really also drive. Actually the spring appears to not work at this moment but you can actually make it drive. And you only need to remove the powder in between. Right. So we also have a lot of experience in design for additive manufacturing. And now actually we're also making the next step to incorporate electronics in that. Right. So you can see that also below here. See some examples of the lamps and here a USB stick of which the casing, the TNO logo is printed. So the three left ones are printed from stereo lithography which you can achieve the highest resolution and the right one is with selective laser centering. Right. So you're combining 3D printing with electronics in this case? So you cannot buy this yet. Right. So we're developing this. Right. We have our own open platforms to develop the mill technology manufacturing. Right. And in that way we can incorporate different technologies actually to go to advanced manufacturing. Right. What's in here? Yeah. So here you see some more examples also of these USB sticks. So we're really aiming for industrial additive manufacturing. So not just let's say like home printing. So this is just an example of making many of these products. Most of the trays there are printed through SLS. Below here you see some other examples like here smart exoskeleton in which you would integrate sensors to actually track your movement which can communicate with your physician. All right. So with the tracks on there and below that are some other examples of which you would want to use additive manufacturing. So here it's a complex spring shape which actually inside it's empty so it's therefore very lightweight but it has a very good accuracy of the printing properties of the spring properties. And how do you commercialize this? Or how does this end up being used in industry? What's the model for TNO to actually get this out into industry and use? We have different types of models. So we do shared research where actually different companies can cooperate and contribute for the sort of the basis of the technology and then also dedicated bilateral projects and that can be with material companies. It can be with equipment companies and also with the end users. So we are developing the equipment and the process. We have a department for developing the material and also those together. We can do very powerful process development and then with the printed electronics knowledge from the whole center we can all combine that in instructional electronics. Great. Thank you Dr. Germs. Yeah, thanks. You're welcome.