 Έτσι, είμαστε οι Άνθρωποι Λόγω. Ποιος είσαι ο Λόγω? Είμαι ο Στερειός Λογωθατείδης, Δημιουργείο της Νανοτεχνολογικής Λάμπας και Πρόεδρος της Ελληνική Οργάνικη Ελεκτρονογικής Λαμπας. Αυτό είναι ο Εκοσύστητας που δημιουργήθηκε στην Θασσαλονίκη για την Νανοτεχνολογική Λάμπας, που συμβαίνει την Ελληνική Οργάνικη Ελεκτρονογική Λαμπας. Έχουμε δύο άλλες αρχές στιγμές, όπως η Νανομπαιομέντρα, και η Ελληνική Οργάνικη Ελεκτρονογική. Άρα εδώ είναι ο Λάμπας μου, όχι από την Νανοτεχνολογική Λάμπ, όπως η Δόκτωρα Αργήρυς Λασκαράκη, ή ο Λάμπας Ανδόνιος Λαδοσίου, και ο Λάμπας μου, είναι ο Λάμπας της Ελληνική Οργάνικης Ελεκτρονογικής, που η κυρία παράγει φωτοβολτάιξες, όλες και σένσεις και μπαϊόσένσεις. Και μετά μου, δεν είναι ο άνθρωπος εδώ. Ο Λάμπας από το BLNano Biomed, παράγει μπαϊόσένσεις από τα μπαϊόσένσεις, και το IOT για σένσεις και μπαϊόσένσεις για τα μπαϊόσένσεις. Είναι καλύπτα, θέλεις να χρησιμοποιήσεις όνειρα. ίδια π lemonade these new technologies of printed organic electronics, photovoltaics, and using various applications either for touristic reasons, but also for other applications including automotives cars, conventional cars or electrical vehicles, green Mediterranean greenhouses και πολλές άλλες παράδειγματος για την ευρωαπλικία σας, γιατί αυτή η τεχνολογία είναι η φωτοβολταϊκή. Πραγματική φωτοβολταϊκή, μπορείτε να δείτε, αν έχετε κάποιο λαμπί από πίσω, μπορείτε να δημιουργήσετε. Εντάξει αυτό, δεν είμαι σκέφτης με αυτή αυτή, γιατί αυτή είναι η τεχνολογία. Αν κάνω αυτή αυτή, για παράδειγμα... Σε και σωτερπαρτή η παλικάρη. Ά, έχετε δει το εξαμπ εδώ, ή μπορείτε να κάνω αυτήν αυτή. Ωραία. Εντάξει, είτε, θα χρησιμοποιήσω αυτή η λαμπί, και μπορείτε να δείτε δυφορά αρια και μπορείτε να δημιουργήσετε λαμπί με αυτές οι λαμπί. Είναι λαμπί τρανσπαρροντ. Yes, it is partly transparent. This is more transparent. This green one, for example, here is more transparent. You can see that it has different colors. Grey, green, blue, other red colors. Hello. My name is Argyzlas Karagis, I'm the head of the organic electronics group of the nanotechnology lab LTFM from the University of Thessaloniki from Greece. So it's a nanotechnology lab? Exactly. It's a university? Is that the name of it? Yeah exactly, it's the biggest university in Greece, in the second largest city in Greece. In our laboratory it has unique infrastructures in the world for the fabrication of organic and pre-electronics. We have 45 expert scientists from different disciplines working in the field of nanotechnologies, organic and pre-electronics, but also nanomedicine and optical engineering. And this is the kind of infrastructure you have? Exactly, exactly. Unique pilot lines for fabrication of flexible organic and pre-electronics. Over a large area you can see a small module like this. So actually you have a vision. We want to create energy harvesting materials and devices in order to adapt it to different surfaces and objects in the everyday life to make everything create energy from the sun. And so how many people are there? Around 45 people, 45 expert scientists. And how do you, are you doing groundbreaking stuff? Exactly. Like nobody else is doing? Exactly, actually we are working in the fields of nanotechnologies, organic and pre-electronics through European research and development projects which are competitive projects. And actually we form consortia with other experts from other countries from Europe and outside Europe to move on and promote this cutting edge research field. Alright, can you introduce some of your colleagues also? Yeah exactly. So, my colleague. Yeah, let's come right here. Hello, this is Anatoly Stodosiu, expert in the organization of international conferences which is a big part for activities in the nanotechnologies lab. So hi, so who are you? Hello, I'm Anatoly Stodosiu, my responsible for the organization of the big international organic electronic event in Thessaloniki. This is the nanotechnology event. It's organized for 16th year in Thessaloniki. When is it next time? In the beginning of July from June 29th until the 6th of July. This is a multi event, it's comprised of three separate conferences and summer schools and exhibitions. We host more than 1000 people and 750 presentations from 60 countries. We host more than 50 exhibitors. We host more than 200 matchmaking meetings. And is this one of them? This is part of the full event. This is the conference of flexible organic electronics and this is the 3D conference, 3D printing, 3D bioperating and additive manufacturing. And people come from around the world? Yes, we have visitors and participants from over 60 countries all over the world. 16 years already? 16 years already, yes, this is 60 years in a row. Nice, so this is a great plan for July, right? Yes, of course. End of June. We welcome and we invite all the people to come and participate in this full event. Can you introduce the company over there? Yes, of course. This is the BL Nanobiome. It's a nanomedicine company. Doing nanomedicine. Nanomedicine company. One of the main products is a full printable biocessor for detection of diseases. And they are also activated in 3D bioperating. The guy responsible is not here at the moment, but this is a company which produces implants, first of all, biosensors, 3D bioprinting systems, which are fully integrated for various applications like diseases or tissue analogous development applications in tissue engineering, but also biosensors for medical or IoT applications in medical applications. They work with the other company, the organic electronic technology companies, which are fully printed companies. And Marius will talk to us just now. They work these two companies together in printing biosensors and working together to develop all this stuff for various applications. Because organic electronic technologies, as Daris will explain to us, works fully in printed electronics, whether for photovoltaics or OLEDs or RFIDs or biosensors, they work together with BL Biobet. So Darius... Hi. Hello, so who are you? I'm Darius, I'm the business development manager of organic electronic technologies coming from Greece. You can see some of our applications right here, so it's more easier and convenient for you. For example, we've done some reference projects with clean houses, also in cooperation with Fiat and also some sunbeds. And we're one of a kind because we can produce also free from lasers, so no other company can do that worldwide. So that means you can make logos and stuff? Yes, it's free because we have the equipment and the technology to do that. But the main application is still the OPVs. We can use it in the building integration so you can see also some applications there in the facades of buildings just in order to produce electricity. It will give support to the power needed for a building. And we are also now developing different products for commercial issues with our guy. Hi, so who are you? I'm Xostomos Varlamis, I'm a product developer for organic electronic technologies. This is actually our product, it's a full panel of organic solar cells. This is the stuff we put on buildings, on cars, on the Mediterranean greenhouses to harvest energy and produce power. What's the efficiency? The efficiency is around 5.5%. 5.5%. Yeah, that's right. So this flexible material is like a printer electronic, so how does it work? Yeah, it's a fully solution process. You can come here to see how it works. I return off the TV, because you have the full video. It's a full solution process on a roll-to-roll production line. Alright. So roll-to-roll mass production? Roll-to-roll it's for mass production. Yeah, it's a printing technique used for many, many years and we use it mainly for mass production. Do you need higher efficiency to launch mass production or is it ready now? Yeah, this is already a product, but we always strive for better efficiency and better stability to have a better product in the end of the day. How do you do this kind of R&D? We have a team of people, researchers that work in specific areas for each part of the organic global bike. Cool, alright. You even have something that looks like a playing card. Yeah, that's actually our RFID antennas inside, our printed RFID antennas. Alright. It looks like a box you can buy. Yeah, this is our smart packaging solution. We have implemented our organic photovoltaics. This has a smart circuit inside. We use light and when it works like a detector, when the OPV is shaded, we have a signal. So it charges up the battery that does something? It charges up the supercapacitor and when there is a difference in... It lights up, yeah. Yeah, and then you have a video to explain... So what is in your video? It's a company video, so you can see the whole production line in details in all the applications. Okay, one second. The first one is only 60 seconds. You can get really holistic idea about the products we can offer. So for this to be the future, it needs to be great price, large quantities, how soon? Yes, one, two, three years depends how much they ask for and users and customers. If you need 100 meters, 1,000 100 meters, square meters, 1 million square meters depends on the order and of course depends on materials or our customers, our suppliers. So these two end users, orders and suppliers are interrelated which we have high orders to reduce the cost by a factor of 5, 10, 15 whatever they are but depends on the quantity. So it's potentially cheaper than existing solar systems? Not yet. Because if you produce 1 square meter then the cost is high but if you produce 1 million square meters then the cost will be similar with conventional, let's say, silicon technology products. In the future the price could be lower? Yes, this is of course the first of all the most green technology in 2025 for example to 2030 the price will be reduced and will be less than the price of silicon technology nowadays but the applications which the new application comes either from green houses, green houses for buildings integration or for automotive in electrical vehicle for example will be unique and it's the only technology which can be applied to this kind of application or in other applications you saw earlier which are indoor applications where you need the low power for electrical devices for supermarkets in order to advertise or to support let's say all this or electrical circuits to start working. It's a unique technology to be applied. Of course you can, there is no problem with the price because you need small pieces, you can start directly and you can have several customers or make orders these days also.