 Hi Franco, how are you doing? Hi, I'm fine. Franco is a technology analyst with ID Tech X and ID Tech X is a consultancy company that provides business intelligence and business advice on emerging technologies. Franco has been looking at supercapacitors for some time now, so Franco, in your view, what performance level and what next steps should supercapacitor companies take for their products to have more success in the economy? Well, that's a very good question, Kasia. As you know, the supercapacitor industry has been working on increasing performance and nowadays we have devices that can watch 34% of the energy density of a lithium-ion battery and 2 to 3 times higher power density. And in terms of the automotive industry, you know, it's a very competitive sector and the technology itself has managed to get into the applications that are more readable to automotive industries such as stop-start systems and energy recovery from breaking. I think a good step for having a broader penetration in the sector would be to increase energy density and to reduce the leakage, the self-discharge of the device, which is something that hybrid capacitors are already doing. And finally, to reduce price because automotive industries, as you know, always are looking for better prices. Also Franco, I've heard that there are trends that are changing the electrolyte supercapacities and also there are changes in the way that the electrolyte is manufactured or perhaps the materials that are used in making the electrolyte in supercaps. For example, new materials like carbonary tubes, graphene, hyperpotential. What's your view on that? Yeah, that's correct. Well, in supercapacitors, graphene and carbonary tubes have been thought to work as the poorest material in electrons. This is because of the high energy porosity that these materials can contribute to the device and in turn to the energy density. Because as you know, porosity is related with surface area variable in the material and in turn that's related with energy density in the final device. And as you increase capacitance on the device, which is related with the porosity and available area, you increase the energy density. And if you use new solvents, as you well mentioned, that can increase the operational voltage of the device, such as ionic liquid, which work at, well, 3 to 6 volts as comparison to current solvents that work to 2.7, you can increase both energy and power to the square for each bolt that you increase in the operational voltage of the device. So given these trends, who do you think are going to be the winners? Who are the winners in the market today? And given the changes in the trends, who do you think will win in the next 5 to 10 years? Well, currently, Micro Technologies is a market leader in the super clustering industry. They have had huge success in China deploying their devices in hybrid buses, wind turbines as well. They haven't had recent other competition, but there are companies that I think will play a bigger role in the future. Nippon Kimikon, one of them, ESR Micro, all of them Japanese with very good performance devices. And I think they will give a good fight to Micro Technologies. Thank you very much, Franco, and if you would like more information, then please visit our website. We have a market research report in super capacity. And Franco is the lead researcher. Thank you very much.