 Hi, I'm here at the ID Tech X show with Henrik who's the CTO of Condoline. Nice to meet you, Henrik. Nice to see you again. So tell us what is the technology that Condoline has developed? So basically we have a process where we disperse particle in a liquid polymer matrix and then use electric fields to align the particles into chains. So you see a basic sketch here, we start with a random orientation of particles, apply an electric field over this film and then the electric field induces dipoles in the particles and the particles arrange themselves into chains. And then we cure the surrounding polymer to fix the position of the chains and you end up with a material that can look something like this for example. And what is your business model? Is it in the process, the materials, are you licensing it? So it's a licensing model, it's our preferred model. We're a small company and we're flexible but we don't plan on becoming a volume manufacturer of our own products. And is it in the materials? Do you develop the materials or are they off the shelf? It's in the process. So we don't make our own particles or polymers, we typically either get them off the shelf or what companies that we work for are with, I should say. So you're able to align these particles, what are the applications? So we've had a lot of different ideas for what it can be used for. So our first license is actually for a medical product. Yeah, it's down here actually. So that's a biomedical electrode that goes on the skin. So it's a new type of ECG electrode. Most of the products on the market today use hydrogel which is working fine but it has some issues that it dries out on the patient's skin and also you need to package it very well to stop the water in the hydrogel to operate basically. Here we align particles in a pressure sensitive adhesive that goes on skin and it's been approved skin friendly and we're hoping to progress to clinical trials very quickly. We're also talking to a lot of companies within the electronics sector and that would be more conductive adhesive and basically isotropic conductive films. And we're also, that's more recent, but we're using the same technology to make thermal interface materials and that's the same principle but instead of aligning something that conducts electricity, it's heat conductive for nitrides and other ceramics. And so with the amisotropic conductive films, say you do a dye attach, what is there needed? So how long would it take to create this process? So I'm not sure that we will be doing it in situ in the dye attach. We would make a film and then that would be transferred and then you add your components on top of that. And what is the length of time for this process to happen? It depends on a couple of factors, most importantly the viscosity of the polymer before it's cured. It can be like this, like basically sub-second up to minutes, but for it to be worthwhile to produce, we're focusing on the quick processes. So the alignment can be very quick and then we spent a lot of time working with UV curable materials because that's also a quick curing process and then the whole production speed can be fairly reasonable. Henrik, thank you very much. Thank you. Thanks for stopping by.