 Richard, and I'm here with Novus Energy Technologies, who are doing some energy harvesting techniques down at the IG TechEx show. I'm here with Peter, who's hoping to talk about some of his technologies. So, Peter, can you tell us what you're doing? Yes, sure. So, basically, we have a couple of different energy harvesting technologies. Number one, we have actually developed this material, which is centered material, which is different from the polycrystalline material, which is typically used in thermoelectrics. So, this is higher efficiency material, and will provide higher efficiency in both the thermoelectric power generation and also for heat pumps. What kind of efficiency do you have? So, for thermoelectric generation, we get increase of efficiency from 5% to 7%. So, you have about a 2% increase in efficiency, and then we've also developed this large area module. You can see the size of the conventional module, which is about 4 by 4 centimeters, and we've developed a 10 by 10 centimeter module, which basically can be used in large-scale applications, like power plants and heat, other areas of waste heat, industrial waste heat, where you have large amounts of waste heat that you want to take advantage of. We really believe that the thermal power plants like coal-based and oil-based power plants, and also other applications, such as geothermal, are very big applications. So, what kind of power output can you get out of it? Well, it's on the maximum. So, we've got 0.2.7 amps here. No, this is actually for the carcy cooler, but the power output for this small device will put out about 10 watts, and the large device will put out about 100 watts. Graham, what would you use out in the power plants to be the main application? So, the application would be, for example, the flue gases could be collected using a heat exchanger, and then be transmitted to the thermoelectric device, and then the thermoelectric device would then convert that to electric power. So, that would be one application. There's other areas in the power plant that could be used in other areas that actually can be utilized. Amazing. Okay, great. Oh, so this is actually carcy cooler technology. This is based on a thermoelectric that is pumping the heat away from this heat spreader material. The heat spreader material is basically a very high thermal conductivity material of 500 watts per meter Kelvin. And so, basically what it does is the thermoelectric devices are remotely located, so they could be located under the seat, and the heat spreader material then could be wrapped into the top of the seat, the person sitting on the seat, but only sit on the heat spreader material, and the heat spreader material would conduct the heat either to the person or away from the person, and you feel this is cold air, this is hot air, and that's based on the thermoelectrics and just the four corners of this carcy cooler. And we also have a cooling vest technology. So the cooling vest is a technology that uses a liquid cooling vest, and the thermoelectric either heats or cools the liquid in the vest, providing thermal comfort to the person who may be working in a hot or cold climate. First responders, soldiers, you know, they have to wear protective gear, and other people that are in hot or cold environments. Amazing. And what stage do you have with that? Is that a prototype or is it out there? No, it's a prototype. All these things are prototypes. So right now we're in the process of looking for investors that may be interested in this technology. Amazing. Oh, well, best of luck with it. It sounds like a great project. Thank you so much. Thank you. We've been really happy with ID TechX. You guys have treated us really well, and we're really looking forward to continuing the relationship with you guys. It's been fantastic. It's been a fantastic experience. We really appreciate all the work that you guys have done in putting this together. It's a really top notch operation. Great. Thank you very much.