 Hello, my name is Guillaume, I'm an analyst with ID Tech X and today we are at the ID Tech X Show in Berlin. I'm here with technology. Can you tell me a little bit more about what you're doing and some of the demos you have understood? Of course I can, thank you very much. My name is Paul Eggington, I'm the CEO of Technology. We have developed a new thermoelectric material which has many advantages over the materials available today. It is available in large quantities and it is very cheap. Today we are showing a high temperature solution currently running at 300 degrees centigrade. This can produce energy from watts to kilowatts. Applications include vehicles, heavy industry, shipping, anywhere where there's a large amount of heat. The other thing we are showing today is a low temperature device, this one here. This operates in the microwatts and milliwatts area and we're using it today to power a wireless sensor. This sensor is sitting on a domestic radiator at around about 45 to 50 degrees centigrade. It is producing enough power to send signals over to that display. It sends three temperatures approximately every three seconds. So wirelessly you're beaming the data from that sensor to that display without using any electricity? The electricity is provided in the device. So this is the thermoelectric module. This is the temperature on the heater. This is the temperature on the cooling fin and this is the temperature in the room. So what about this? This is another module. This is one of our earlier high temperature devices. This will again operate at 300 degrees centigrade and produce around about 5 watts. So thermoelectric has been around for quite some time? Yes it has. So what are you bringing to the market? Traditional thermoelectrics use a material called prismateliite. It's a very good material but it's very scarce. Telerium is rarer than the rarest rare earth metal. There is approximately 400 tonnes per year of Telerium produced globally and that is not enough to do a volume production. We use a different material. We use for example zinc, magnesium and these are available in huge quantities. So we are able to meet the volume need. This has not been possible before. So if we're talking about internet of things, wireless sensors, we need more volume and therefore you can provide that kind of volume. We meet a lot of people that have tried with prismateliite modules but they find that when they want to go into production the price is too high and they cannot get the volume. We can solve it. Okay, very good. So thank you very much. Thank you for your time.