 Hi Julien, I'm Kasia. Welcome to our conference. We're very excited to have you. Julien is from a company called Smartchem. They're doing some very exciting work on organic materials. Would you like to explain briefly what you do and then I'll ask you some technical questions. Smartchem firstly makes high performance organic materials specifically for organic thin-field transistors. So this is technology that was developed originally by Avicia in the late 90s, 2000, and then Smartchem have taken it further and developed some unique molecules and formulations that achieve quite standing performance for organic materials, both in terms of the key metrics of mobility, on-off ratio, threshold voltage, and also by stressability. So we believe that these materials are now ready to be used and make products such as OLED active matrix displays and sensors, and the key attributes really are the low-process temperatures, their solution-processed materials, and they can be integrated into an existing manufacturing process. So there's no big capital expenditure to use these materials. So organic TFTs have been around for some time and commercially they haven't been very successful. Why do you think it is? And do you think you bring something new to the table? Well I think the thing is it's all well and good demonstrating high mobility from these materials. But what you actually have to put together is a package that allows somebody who wants to use some for real to implement them on their processing line. And once you start doing that you find that maybe you didn't have everything nailed. You didn't have the biostressability, you didn't have the usability of materials. So I think it's bringing all of those aspects that you need to kind of integrate to create a usable product. And I think that's what probably distinguishes Smart Chem from maybe some of the headline kind of performance that you see in some of the technical applications. So what is the first market? Well definitely what's been driving initially at the development and some of the specifications was the OLED active matrix displays but that's a very difficult market and we see that there are probably some earlier sort of lower barrier entry points in distributed sensor applications. And how do you see the threat of metal oxides, technologies like Ixo and so on that have a relatively high mobility that can be processed at room temperature or slightly higher temperatures on them? Well yeah I mean Ixo is a threat. I mean there are definitely issues of Ixo around biostressability and I'm sure with some work that will be sorted out. You know one key differentiator is that the organic materials are truly flexible. You know you can withstand very high strain and they won't crack and therefore you can use quite relatively thick plastic substrates which you probably couldn't use right now with the Ixo offerings. Great, well thanks Julian. Thanks for the information.