 John we're so excited about you discussing LFP batteries ever at our upcoming CMI summit. Tell us a little bit more about this topic. Yeah so LFP batteries are getting really exciting worldwide. They are still a lithium ion battery just like nickel manganese and cobalt batteries are but they're getting really a wide scale of acceptance. They're becoming the battery of mass adoption. What do I mean by that? You see some of these vehicle manufacturers that are now assuming the LFP batteries from their vehicles and immediately slashing the cost on their models. We see this happening with Tesla. They've moved it into the Model 3, the Model Y and they've also moved it into some of their larger large-scale transportation vehicles. Okay so a battery of mass adoption. Fantastic. Now you come into this strategy with phosphate. Is that correct? Yeah correct. The lithium-ion phosphate battery is exactly what it says. It's got lithium like other lithium ion batteries but it's also got iron and phosphate. So a critical element is the phosphate and also the iron that's not found in the other batteries. So obviously you know we need a pure source of North American phosphate, a source that can produce a lot of what is called purified phosphoric acid which is what goes into the batteries and so we have a very pure form of igneous rock in the Lexin-Jean region of Quebec that produces a lot of purified phosphoric acid that can produce a lot of batteries, can produce all of the batteries required until 2030 in the North American space. And of course you have a premium phosphate or very high quantity quality phosphate. Correct me here. Yeah so our phosphate concentrate that goes into making purified phosphoric acid is at 40 and a quarter percent purity inside of appetite rock. The next closest that you get is 30% which is the world standard in sedimentary rock out of Morocco. So we're sitting at a full 33% higher purity which means that 90% of our material can be converted into purified phosphoric acid whereas sedimentary material a lot less you know around 10 maximum 20% can go into purified phosphoric acid. So it means you know we're almost a purely focused on purified phosphoric acid for the LFP battery industry and we can be completely focused on the technology client and not on the fertilizer business. You have one of the best marketing decks I've ever seen for a public listed company in your market cap. You clearly outline your plan of action and how you plan on doing it with a timeline. Congratulations Kudos. Yeah thank you very much we've been working hard on it working hard on you know getting focused and meeting the deliverables. You've just signed a licensing agreement with Integrals Power Limited. Can you tell us a little bit more about your deal? Yeah so there's a numerous companies out there in the western world that have technologies for making LFP cathodactyl material and Integrals Power Limited is one of them. What we like about them is that they're developing a new brand of LFP that you know can resist in colder temperatures and can be adapted to you know different production types that are looked for in the LFP battery and what we like about Integrals Power is that they're willing to work with us to make some sample cells using our purified phosphoric acid that will be shortly produced as well as our iron sulfate that will be shortly produced and we like the fact that they're also going to be homologating to our materials meaning that once that we're homologated to their spec it means that all of their customers will want to use the purified phosphoric acid and the iron sulfate that comes from our deposits to make LFP battery using their methodology. Okay for those of you seeking to access this wonderful marketing deck and to find out more about more information about first phosphate please go to their website. John thank you for joining us today. Thank you Tracy.