 Today, I'm speaking with David Regan, the CEO of Sona Nanotech, which is a very interesting company in Halifax, Nova Scotia. David, your company is basically becoming a world leader in gold nanorots, so let me say something about that for our audience. The nanotechnology is something we've been talking about for years, but at the end of the day, there's been very little commercialization because creating and handling nanomaterials is so damn difficult. So I have a question for you. You could probably create enough inventory of gold nanorots if you wanted to for the rest of time in your bathtub, okay? Because you don't need very many nanorots to do something and there are a lot of nanorots in a gram of gold. Now my question is, this has happened before when I've discussed nanotechnology. How, if someone wants a sample of your gold nanorots to use in R&D in Tanzania, how do you get it to them? Well, look, that's not a problem and we've actually shipped our nanorots around the world. Different researchers looking to working to work with them. You know, it's not considered a hazardous material at all, it's not sensitive. What I mean, David, is how do you keep the nanorots becoming just a little clump of gold? How do you keep nanorots in as nanorots when you ship them around? That's the thing I never could figure out anybody could do. They are suspended in a matrix that keeps them stable. You know, our technology we believe is particularly provides for stability in those nanorots which enables them to be shipped. But typically they'll come in a small bottle. Okay, we have a bottle. Sort of a small fluid like container like that. And yes, one of those canisters would be enough to suffice you for your lifetime's use of all your needs, Jack. And the only other technical question I have is this. You've been saying that you can produce gold nanorots in a non-toxic medium. And that's very important because one of the reasons they haven't been used in medicine very much is because of the toxic nature of the reactants necessary to make them. Now, can you just give me a brief synopsis of how you've overcome that problem? Sure. So this is the manufacturing process for gold nanorots as we've discussed. Ours are not the only gold nanorots in the world, but ours are the only ones that are biocompatible that don't use toxins as a surfactant when the tiny piece of metal is in fact elongated and turned into a rod. Using a surfactant that's necessary, the surfactants that are used are toxic. Our process enables us to create the gold nanorod without the toxic materials. That's proprietary to us. That's what patents are pending on. And in many cases and in many applications for gold nanorods, folks would say, well, okay, biocompatibility isn't a consideration for our particular industrial use for it. However, when one starts looking at medical applications, in vivo medical applications, when planting these gold nanorods in the body, biocompatibility will become paramount. And would you just once again pick up one of those vials with the gold nanorods in it? Sure. Okay, I see purple color there and I just want to point out to our viewers that the ancient Romans made glass that was purple and it was because of gold nanorods. They didn't know that, but that this has been around for quite some time and I congratulate you on after 2,000 years finding a good use for that stuff besides colored glass. You've done your work, Jack, on that in your research and that's something that one of our co-founders who invented this technology coming out of one of the university laboratories here, was very proud to suggest the fact that, look, this has been around for thousands of years, but we're now able to use it, create it, manipulate it. Okay, thank you, David, for explaining those things to us and I wish you the best of luck. Thanks, Jack. Always happy to speak and happy to answer any other questions.