 Optically transparent and very conductive. Basically, it's a Nobel Prize winning material in 2010. And currently, it's used in different disciplines, the solar cells, different electronics, in different type of biomedical applications. But I will primarily talk about the devices which can be used in visual representation of the data. And I will present the patent that we recently, yeah, recently filed. So basically, this is a new type of display, as you can name. It's totally organic. And what is remarkable about this device is it's paper thin. It's completely organic. And after this research, we realized that actually this type of display can be completely shift the whole industry because currently, the whole commercial industry is heavily based on metal oxide materials, which are brutal, they are not biocompatible, and they bring a set of characteristics which are not favorable for our vision of seeing the future of our electronics and solar panels. And graphene, which is like one dimensional materials, which is almost transparent, and it's amazingly conductive, can offer a new set of properties that we require. So we filed this patent. And as Richard already mentioned, which Cambridge Enterprise, they hugely helped us. I think the process was around one year. We met at them, and they did a big of research to understand whether the device that we are preparing is already filed, whether there is an interest from industry. So the interesting thing is actually, when I made the device and I didn't realize that this technology that I just made can be used anywhere, because for me, it was just like piece of technology that I was developing, and I was learning because this research is so relatively new, and there is no any fundamental research to go towards, and there is no any fundamental understanding about this material, because as I already mentioned, it's just recently established technology. And actually, the growing of this material is still very challenging. And currently, these are the applications that can be used. The first one is, I already mentioned, is a new generation of new type of displays, which can be transparent, flexible, and very thin, and they also consume almost no energy, because it's just so thin it doesn't require high voltages to work. And the other technology, obviously, is hybrid solar cells based on nano-engineered structures. And actually, right now, I think the best research in Cambridge University is around 8%. The best efficiency we are getting from polymer-based structures is 8%, which is quite impressive, because with silicon-based, the best one which is currently used are 24%, and we couldn't get higher for that. And with this set of properties and with this set of nano-engineered structures, so far we got 8%, and we still can grow and learn from our mistakes. So basically, the infrastructure of Cambridge, basically, this is everything I'm presenting is my personal experience and the challenges I faced in Cambridge University. So the first one, as Richard already mentioned, is Cambridge Enterprise. It's a really big institution, and it's a university, basically, run organization which helps students and academics to commercialize their ideas. So you can approach them with an idea, you can approach them if you already have a business plan or you are struggling with something, and you can approach them if you're already in a C stage and you still require some funding. Basically, in every stage of development, they can help you. But at the same time, they are not pushing. So Richard mentioned that there are all the posters all around university, so they kind of push students to commercialize their ideas. I have to tell you that in my personal experience, they don't. They are very helpful, they are very comforting, and they help with all the resources they have. But at the same time, it's not like working in commercial research center, like, for example, the Samsung in South Korea that you have to publish at least two patents per year. It's not like that. So in that sense, and from the beginning, the challenge for me was I thought that the research that I did and the ideas that I have, it's not as novel as it can be. Because for me, it was like one year of research, and I just started learning how to do the chemical vapor deposition of the material, because basically, you are starting is that you are engineering material. You are like architecture, like architect. You are working from the scratch. First, you learn what kind of gases you need to use to actually grow material. It's a chemical vapor deposition process, and I use methane as a source of a gas, and during which, basically, under high temperature and high pressure, this gas decomposes and nucleates and creates this amazing layer of graphene. And then you transfer this graph into different substrates. It can be polymer. It can be silicone. It can be just glass. And then you do later characterization. You prepare these kind of structures. One is in a graphene and the other. And you can use already structures. You can use liquid crystal materials depending what you are aiming for and depending what are the disciplines that you are working. I'm sorry, I'm just getting away from the topic. But basically, for me, it was more learning and doing a procedure. And I didn't realize from the beginning that actually, yes, this is the research you can commercialize. So from the beginning, it was a bit pushed from my supervisor and senior academics who actually told that, yes, Malia, you need to apply because this is quite novel and we have to do that right now. And we quickly applied. We had a couple of meetings, they did the research and then approached me saying, yes, yes. So right now, this is, there is no single patent or single publication on this. So we quickly need to start basically preparing the documents. So in that sense, Cambridge Enterprise was very, very useful for me. And I think they're still useful because they are constantly approaching to ask how we are doing, whether we need some consultancy or something like that. So they are very, very, I think they are very useful, especially for early stage researchers like me who just started doing like experimental work and in the stage of being slightly hesitant about the quality of the work. So the second one is actually MOTI module which I took during my MFIL course. It's management of technology and innovation from Judge Business School, which included nine different subjects, starting from like accountancy, financial, budgeting, et cetera, from management of technology, innovation leadership, et cetera. And that was actually very useful for me because from the beginning they gave us practical knowledge. We didn't have to read a lot of like books about finance and we didn't really need to go beyond the concept to understand, it was very useful. And the second part for me was like remarkable just because we worked with the local startup based in Cambridge. It was a high tech startup based in Business Park. And we did three months of consultancy project and the task they gave us was quite challenging for me especially because they wanted, they had this product, they wanted to enter to Asian market. And so far they were successful in Europe but they didn't know the competitors, they didn't know the market, they never done a remarket research. And for us it was a bit challenging from the beginning because most of the documents that we wanted, everything was in Chinese, right? The important documents from the government was Chinese but we were lucky so to get one Chinese student and he was constantly calling to China getting information. So we did like, we did such a, for me personally I learned a lot working with like different nationalities, different characters. And I was leading the group that was, for me it was very interesting. The third one is still going on, it's every year at Cambridge, like Enterprise Tuesdays, every basically Tuesday is series of lectures and networking events with different academics, very successful entrepreneurs, they are coming and talking about their success stories. However, they also focus on their failures. What they did wrong and what they learned from that and this is like three hours meeting and by the end of, you can just approach and ask them whatever you want basically. The Accelerate Cambridge is another very interesting event. It's, if you have an idea and you think it's possible to commercialize, this is the program you approach. It's three months intensive course during which you go from idea to realization and it's very, very intensive and you work in a group of different like small, small startups and actually it's kind of they bring a lot of power and enthusiasm to these small groups and it's very, very powerful to see how everything is going from idea to actually the product. This actually, this IGNIT is very new, fairly new. It's, I think it's the one week training program for already made startups who want to freshen up their ideas. They want to do some new people to get involved. They want some consultancy and obviously like venture creation, I participated once. I wasn't establishing any startup or I didn't want to at this stage but the venture creation weekends is very useful just because even though you are not interested but you are genuinely interested to do that in some point. This is the event that you go to because this is like very heavily packed weekend and the whole weekend you talk about startup development and actually this presentation was heavily prepared for students. So like this one was basically this last slide. I put this because during the summer I was working with kids in diligent teaching them nanotechnology like kids from 12 to like 16 years and it's quite challenging because you need to talk in a simple term so that they will understand and I came up with a video which actually we taught kids what nanotechnology is and why it can be interesting for them and by the end actually it was like it was ending with a quote like your only limitation is your imagination especially working in area of nanotechnology which you can develop a material with the whole set of properties that you want. We just need to address problem in a right angle so this is why I put this one. Thank you very much. So thank you Amalia. Inspirational indeed. Nano stuff but mega excitement. So yeah thank you. I think that concludes what's a formal part of the presentations of our speakers so thank you very much to all. And maybe then what we could do next is question and answers. Primarily for our guests as moderator I might just step back