 I'm Tobias from Cyprius. We do lab automation equipment. We have this new spin-coding robot in our portfolio. It automates the whole step that is usually done manually. It can move substrates around. It can automate the pipetting. All the very tiresome work where you as a PhD often have trouble and make mistakes can be automated in this setup. Our goal was to make a system that is suitable for every lab. We offered starting at 36.000€. For every lab? Every lab does something like this? Yes, every lab more or less that works with inks and printed electronics also works with spin-coding. So what is it doing right now? It just took the tip, now it opens the vial to take the ink. It goes down, detects where the ink starts, takes the ink, puts the lid back so that it doesn't evaporate. Now it will eject the ink on the spin-coder. All the timings and everything, the volumes can be set very accurately. More accurate than you could do it manually. With micro-liter precision and millisecond precision in the timings. For example for perovskite deposition quenching steps that are really time-relevant. Here you can do it very accurately and reproducibly every day. Accurately, reproducibly, the quantities is precise? Yes, and you can do for example 100 identical samples. That would be very tiresome, but if you want to do stability testing also, you need a lot of samples and here you can do it fully automated with the same quality and the next day you can start over again. You can collaborate with other labs, for example exchange recipes that other people then can also reproduce very easily. Is this the information about it? Yes. So what do we see on this brochure? Here we see the flyer and the different applications where it's suitable from semiconductors, perovskite, photovoltaics, batteries, fuel cells, OLEDs, lighting sensor, display applications, you name it. We can do all the customization to suit these different technologies and adjust the lab help for your needs. SkiPrius, sounds like a Greek name. Yes, but it's a combination of science printing of semiconductors, so it's an acronym for that. Where are you based? We are from Nuremberg in Germany. Alright, that's where I was just like last week at the embedded world. Ah, okay, yeah, that's a big conference there. And it's a cool field to be working on the printed electronics and helping that field. It's a very active industry. Yes, definitely. A lot of different inputs from different groups. It's very active. The procedures, they change very often. We need to develop new equipment all the time. Here we have the unit with an improved ceiling. So now this is, for example, for handling very volatile solvents like chloroform so that you can heat it, but still it will not evaporate and it will keep the volume constant. And then when you need it, it opens automatically so you can integrate it also in the spin-coding robot. Then we have measurement units we can integrate. So there are a lot of components that can be integrated and added to the spin-board system. Do you have many customers? Yes, we just started this year with the system on the market but the demand is already very good and it meets our expectations. This is your booth, the whole area here? Yeah, the whole area is our booth. What automatic research? Is that your slogan? Yes, here we have also equipment for, for example, for doctor-blading. Usual manual doctor-blading when you go to larger sizes than spin-coding and would like to make modules. And here we have a measurement unit that has a lot of small SMUs to measure up to 72 solar cells at a time. So this is a stability measurement setup for solar cells. Stability of solar cells? Yes, so all the cells, you can illuminate them here. You can put in like nine substrates at a time in one of these holders and all of them can be kept in their maximum power point individually. That's something that is very often needed for a perovskite research. So a lot of people are researching perovskite right now. Do you want to make the best solar? Yes, definitely. And the efficiency is already quite high but the stability is one of the most active research fields at the moment. So here our setup has also met quite high demand and can help a lot of labs to increase the throughput. Is this in full mass production, this solution? Or is it like a prototype, one of the first ones? And people can get it later. No, we are now selling it. It's already on three continents distributed in this short period after a couple of months. So yeah, there's a lot of customer demand from San Francisco to Singapore where we already delivered systems.