 What if I told you that the green revolution we're seeing with the adoption of electric vehicles could be even greener? That very well may be the case as Power Nickel sets out to prove it can produce the world's first carbon neutral nickel mine in Quebec, a key metal in all EVs. To speak about this and a lot more in this company, we're joined with CEO Terry Lynch. Terry, welcome a good man. Hey, Brandon, great to see you again. And great to see you as well. Well, for those who may be new to your story, can you provide a quick overview of Power Nickel and your plan to provide the world's first carbon neutral nickel as well? We'll get to your drill results that just came out. Yeah, yeah, sure. I'd like to start here if you don't mind. Yeah, absolutely. So, I mean, basically Power Nickel is developing the NIST project. It's located in Namaskar, Quebec, or just outside the town, about eight kilometers outside the town. Immediately beside the route north, right across from Hydro Quebec, which is an important part of the carbon neutral part of the situation. It's a high-grade nickel sulfide, nickel PGM deposit, and near surface, and obviously getting some pretty exciting results. The carbon neutral side of things is we're very fortunate, just by the nature of where we've discovered this mine, we're in Quebec. So, of course, indeed, Hydro Quebec is right there in our back yard, literally across the street. So, first and foremost, we're going to power this mine with green electric power. So, hydropower. So, that's awesome. It's an ultramaffic deposit. So, ultramaffic deposits naturally sequester CO2. There's ways you can enhance that. So, that's another just, again, a lot. And then there's three ways to make nickel. You can smelt it, you can hydrometallurgy, or there's a chemical metal vapor process. So, the last one is something that we're doing a feasibility study on with the leader in that field, CVMR, there's 18 plants like this around the world, and their plants are, they don't have any external effluent air or water. And so, it's the most environmentally friendly way to produce nickel. And so, when you add those together, and then you add in, that one of the things that we're going to do in our proposed project is we will build in a recycling facility right off the start. It will cost us an extra, you know, 15 or 20 million, and it will give us a whole new revenue stream. But it's, you know, if you built this plant from scratch, a recycling facility for batteries, it'd be like $125 million. So, but they'll only get into it at an existing plant that you can integrate many of the, many of the sort of features so they work, you know, simultaneously. And so, all those steps combined, we believe we can make the world's first carbon neutral nickel mine. And that'll be obviously a great thing for the environment. It'll be a great thing for our clients because they can be able to represent to their clients that they're doing their thing, you know, in terms of participating in the Green Revolution. And, you know, we can do it all economically and people can make money in a coherent way. You know, so it's a big undertaking, but a logical one that can be done with technologies that exist today and just so happens that we, you know, got the deposit to do it. Yeah, fantastic on that. I appreciate for that overview. And it is important because people do want to see this revolution into electrification of the world, but also understand that we need to do our part as well to mine more green. So it sounds exactly what you're doing here. And you just close the first tranche of your financing and release the first whole from your current drill program as well. This is just, you know, just in the last little bit here. What are you seeing from this first assay result from your first hole? Yeah, it was great. You know, there's really within the orb, the main orbit is called NIST main within NIST main, there's really, I would say west side and east side. The west side is the most prolific, much higher grade. The east side is still productive and important part of it. So we, on the east side, we stepped out 300 meters, you know, south and east, I guess, and had a very, you know, great hole, like 19 and a half meters, effectively 1% nickel in Q. You take a whole boatload of those results. And so, so it gives us a bunch more resource. And it, we did that, you know, based on some technology we've been employing called ambient noise tomography. So it gave us a different visualization of the deposit. We initially thought that was going to be bearing ground and not productive. And so, you know, based on the technology, our understanding was that no, in fact, it looks like it could be very promising and it looks like it even extends further. But we stepped out 300 meters is not a small step of usually people are stepping out 50 meters, you know, 25 meters, 100 meters, 300 is a bold play. And it came in big, you know, so that was possible because of our ability to sort of see the deposit in a different way, thanks to the new technology. Yeah, I was going to bring that up, actually, because there's a significance behind this on the ambient noise tomography that you were talking about there. Your Wildcat target provided bonanza grade PGM, otherwise known as platinum group metals. How did Ant, which is the ambient noise tomography, how did this help you see it in a new light? And what is the significance behind finding this bonanza grade PGM? So the bonanza grade PGM was done with good old fashioned geological sleuthing by our great team that internally and at GeoVector, they identified the ultramatic, you know, offshoots at the surface, we drove the shallow hole and at 60 meters, we found eight meters of almost one ounce of PGM. So that was just, you know, great, great geologists doing their thing. Now, going from there, we did do cover it with the ambient noise tomography this summer. And we could sort of see how this continuation is going to go. And we'll have several holes planned to follow that up. It's a winter target, so we won't be able to get to it before Christmas, but we'll certainly be drilling on it first thing in the new year. And we're quite excited about what we're seeing there. And again, what the ambient noise tomography does is it measures the rock velocity. And everything in earth has a velocity. And it's measured in, you know, beats per second, I guess. And so to the most part, you know, what we've found is, you know, our mass of sulphide deposit is correlated to when we have an ultramatic deposit, followed by, which is about 4,500 beats per second. And then it drops off to around 4,000 to 3,800. That's when the mass of sulphides get deposited. So whenever we sort of see that situation, that signature, that's where we have productive drill holes. So obviously, what you say is where to else? Do I see that, you know, in our land package? And so we're quite lucky in that we've identified what we call, you know, not a terribly innovative ant one and ant two, ambient noise tomography one and two. I guess that's why we're mining and not marketing. But, you know, we see these as north and east of our current deposit. We think they'll be highly productive. We'll get at those in the early in the 24 drill season. And then we also see something similar on the west to the west of us. So pretty exciting. Honestly, this technology is going to change mining and we're happy to be working with it and be amongst the first to take advantage of it. Yeah, very interesting indeed. I appreciate you going into detail there. In a recent news release, you stated that you believe NISC is the world's most undervalued project of its kind. What leads you to believe this? Yeah, it's a bold claim. But you have to be bold these days because, you know, the market is such a disarray. And the reason why we do that is it's just math, you know, we compare ourselves to other high grade nickel sulfide mines around the world. So people with 1% nickel sulfide or better, and that are considered to be commercial. Okay, so these are deposits with 43, 101s, etc. So if you compare us with these high grade nickel sulfide deposits around the world, as we've done in our presentation, you can find on our website, you'll find that we're trading between 5% to 10% of their value. Well, we're about to release an updated 43, 101. It'll be our inaugural 43, 101 sometime next week. And all of a sudden, this thing is going to be, you know, to the world become a commercial mine, ready to be. And ultimately, this is just a start. We think it's going to be very big. So that's our whole positioning is to say, look at the math of what we've discovered, look at what we're both to produce, compare that against all others. And you'll see that we're trading radically undervalued price per nickel per ton in the ground. And arguably, we're in the best location in the world to develop a mine. We're off the road in Quebec, where they give you two for one to money to explore, they give you two for one money to build. You got Hydro-Quebec, green power. I mean, it doesn't get any better. You got the Crete, which are very pro business. So, you know, like all the boxes you look to take on a mining project, we've got. So, yeah, we are the most undervalued nickel mine project in the world and it's a hell of an investment opportunity. Yeah. It's very clear that CVMR sees this as well. Earlier this year, you had CVMR invest their own funds into completing the feasibility study for your NISC project. Is it normal for an outside company to like a project so much that they're willing to basically fund their own work in order to obtain a meaningful position? And has there been discussions, further discussions in collaborating any further with your company as well? Yeah. We're very excited to have CVMR involved in partnering with us and working on the project. They basically did this because they ultimately would like to do a joint venture with us, where they would basically build and operate the mine and the refinery. And they would produce, they're among the world's leading producers of nickel powders, nickel nanopowders, nickel wire, nickel anodes and precursors for the EV sector. So, their biggest customers U.S. Department of Defense and the 3D printing industry, etc. and other obviously electric vehicle manufacturers. And they're running at a class one nickel. So, in North America, we're pretty much the next guy up that hasn't been unallocated. So, we'll soon have some break benchmark studies from CVMR as part of this feasibility study. So, we're looking forward to that. I think it's quite interesting when you approach the project by thinking as a finished products producer, as opposed to a concentrated producer. So, one of the lessons we're learning is that when you produce a concentrate, you're probably leaving 20% to 25% of your nickel in the ground. Just the nature of how this is done in order to get the concentrates the way that the refiners like to have them. But if you're actually finishing the product off, you're probably going to take out, you know, full 20% more of that. So, all of a sudden, that becomes just drops right to your bottom line. That's one takeaway. Second takeaway is the money you get for finished products is two and a half, three times what you get for concentrate. So, think about that. Costs are both the same. So, it's been, you know, the money and nickel is in the refining and up until now it's been impossible for miners to get there. But now I think there's pathways for us to get there. And we'll just see if that's what we end up doing at the end of the day. We always believe that it was important to maintain your free agency. So, I'm not going to preclude, you know, Glencore, BHG or Wyler or somebody coming in there and giving us a whopping multi-billion dollar check and taking us out. But, you know, along the pathway, we're going to move ahead and assume that we're going to build this thing in some way, shape, or form with partners that want to build it and give our shareholders the maximum, you know, return on investment. Yeah, fantastic to hear. And speaking about return on investment here, lastly, you have quite a bit coming down the pipeline for Power Nickel. What should investors be excited about as you round off 2023 and soon head into the new year? You know what? The next six weeks will be the most impactful of our history. We've got, I would say, nothing but good to great news coming every three or four days. So, again, bold, but it's just the way things stacked up. And so, we'll be pounding this stuff out. Obviously, the number one thing would be the 43-101, which will, I think, validate the project. That should be out sometime next week, we think. And then after that will be the benchmark studies from CDMR, which will show how robust that can be. And then there'll be a report and a great podcast that would encourage anybody interested in investing in Nickel and Power Nickel to attend. And that will talk about the ambient noise tomography work that we've done and what we've seen with it, what we've learned with it, and where we see this, how it impacts our exploration and potential in the future. So, nothing but, and then, of course, more assets. So, we've got really just a ton of great news coming. Terry, thank you so much for your time. For anybody who's looking to find out more information about your company, you can see the website that just comes down below there. Feel free to go there. There's much more of a deep dive going through your presentation, all of the above. Terry, always a pleasure. And thank you so much once again for your time. Thanks, Brandon. Have a great day. Cheers.