 Hello, I'm Nilushi, I'm one of the Technology Analysts from ID Tech X and today I'm going to be interviewing Mr Nikolas Bernadin from SarahDrop. Okay, hello, nice to having you at our booth and to introduce to you our technology. So we are equipment manufacturers and here are different machines that are digital printers and those printers are dedicated to printed electronics and smart 3D printing. Permits to combine different types of materials deposition technologies with the type of technology people can print different materials for multi-layer components. They can cure it because several post-process curing are embedded at the end of the equipment and at this post-process area coming back you continue to stack layers and everything is fully digital and managed by CAD CAM software you can see here. Okay, so I have a few questions here. What type of materials can you 3D print using this system? So this system can print two-dimensional components but also three-dimensional components by stacking layers and lots of different materials can be printed including metals, functional polymers but also ceramics. Okay, there's a curing system at the back. Can you tell me a little bit more about the curing process? Yes, at the back of the process you can send your deposited materials on the substrate at the rear to anneal the deposited layer. So lots of technologies are available and can be integrated including UV, near-infrared, photonic flash curing, vacuum drying. Oh, that's very interesting. So what about the CAD software? Is this something you've designed and produced yourself for your customers? Correct. So we designed our own CAD CAM software that permits people directly to import on the CAD software their own CAD files of functional components they want to print and on that they have the possibility to fully tune the printing strategy and make it happen before printing to simulate and then generate printing scripts and generate the manufacturing step. Okay, so which customers are you targeting at the moment? Are we talking about things like circuit components? How broad are your applications? Applications rich with this type of technology are on a very large area. People are working on each different application area including microactuators, micro sensors, circuitry, antennas, biosensors, smart packaging, lots of things can be reached with this very versatile tool. So I think there was a product that had quite what to be an excellent interactive demo. Yes, so let's have a look on our demo there. So here is another digital printer where we can launch printing. So this is an inkjet printer and we can deposit here thanks to the integrated inkjet heads, nano silver ink, and then cure it in line to obtain a flexible circuitry and functional components. So here we go and now let's print that way. You can see how fast even on the process development and then after depositing the materials he's integrated a near infrared lamp that will cure and generate conductivity over this paper. Okay, so if you build a multi-layer structure using this system, how long would each step take? So it will depend on the different pattern but it can be very fast. The curing step can take about half a minute and you have no more than a few seconds for printing so it's a couple of minutes to generate multi-layers. Oh, okay, excellent. So is there something else that you'd like to show about this product? Because I noticed over there you had some interesting samples of your printing. Yes, exactly. Maybe I can introduce to you some of the different type of application area. So here you have lots of different applications. So here is a printed sample that was generated during the exhibition with this machine we just saw for a flexible circuitry. You also have over example here, for example, OPV, so organic photovoltaic solar cell. This is an over example of printed piezo polymer on a silicon wafer. So people are really working with our technology for a wide range of applications. So in addition to that we are the subsidiary from a French-based group called MGI that is an equipment provider expert in digital printing for high added value graphic art and ennoblishment. So here is some very nice samples generated by MGI machines. This one, for example, which is a metallic aspect made by Turner. And you've got also here over example of very shiny printing, where you can see in addition to the printing colors, but also digital spot varnish for these shiny effects, but also you have hot foil available for very nice luxury packaging. Right, I see. So what is this over here? And then here is the final next steps, I would say. Combining our knowledges and capability and technologies, we are able to load on new machines that we already presented, paper or different type of substrate. For example, this one, you load paper, you print colors, then you print the digital spot varnish that made this shiny effect just like the bottle out from the fridge. And in addition to that, you can print at the other side some electronics with pick and place, battery and OLED module that permit to make smart packaging and display that way. So smart packaging is a very very promising application area where we are combining our strengths together. So all of these multiple materials were printed using your system? Correct. Okay, that's very impressive. So is this what you would say your company as a whole? This is the direction that you'd like to go in? Exactly, exactly. As many other ones, but this one is something where all our strengths are together and make it happen on this type of application. Excellent. Okay. So thank you so much. I think that's a very good overview of what we've got here and that's been very interesting. Thank you. Thank you very much. Yeah.