 Hi, my name is Dr. Bryony Corr. I am a technology analyst with ID Tech X. I cover 3D printing and I'm here today with Nicholas Bernardin of Saradrop, who is going to talk me through some of his technology and his printers. Hi Nicholas. Hi Bryony. So we are here presenting our advanced technology in terms of digital printing machine. So we are providing the market with advanced technology starting from pure inkjet printers but also hybrid digital printers that combine both inkjet and aerosoljet from Optomec. Right, okay. So what are the main advantages of printing with this printer? So the main advantages of this printer is that you combine lots of technology in one single tool, that is to say, in one single standard platform you have everything required to print lots of application areas. Starting from inkjet printing but aerosoljet printing with different types of substrate and in addition to that you have the capability to cure different multi-material components without removing the substrate from the machine. And then finally characterise two-dimensional with cameras, three-dimensional with laser reflectometry and also physically with 4-point probes you can have sheet resistance measurement. Right, okay. So what is the resolution that you can print down to? So it's a resolution down to 10 micrometres with aerosoljet, 25 micrometres with inkjet. Right, okay. And you developed your own software to support this multi-material printing. Exactly, we are providing these printers with different, a complete dedicated softersuit that permit people to start with any type of 3D CAD file that will be important in our advanced softersuit and then the user will be able to tune completely his printing strategy in order to reach final features. Right, okay. So what is this printer that we're looking at here? So today on this printer is an example of flexible electronics. So we are depositing nano-silver ink on paper. So live demonstration during two days of exhibition launched in terms of circuitry antennas printed, cured in line and then characterised with 4-point probes in terms of sheet resistance measurement. Right, okay. What other kinds of materials can you print on? So as soon as we are dealing with flat substrate, we can print on any kind. So it can be flexible polymorphoils, paper, glass, wafers, ceramics, metals. Right, okay. So a wide range of potential applications then? A wide range of applications, yes, because of the versatility of the process. His flexibility as a digital process can adapt itself in lots of situations. And yes, a real, real wide range in mono-material, multi-material applications, but also two-dimensional and three-dimensional ones. Okay, all right. Okay, well, thank you very much, Nicolas, for your time. It's been a pleasure. Yes, thank you very much. Have a great day. Thanks, bye.