 Hi, I'm Matt from the IDT Tech Show and I'm the stand with Stephen Bagshaw from the Centre of Process Innovation or CPI from the UK. Welcome Stephen, thanks very much. Hi, how are you doing? You OK? Thanks for coming to the show. Very good, thanks. You've got lots of exciting things here. Tell us what they are. Let's go through them. Yes, so CPI we're based in the UK. We're what we call the Technology Innovation Centre. What does that mean? That means that we help companies in print electronics go from research through to the commercial market. So we work across a range of different applications, but basically we have the equipment and the people to help people to scale up their applications to market. So some of the things that we're working on, what you can see here, this is a prototype for Smart Packaging. So it's actually for a pharmaceutical company. So the idea behind this is that pharmaceutical companies can track and trace their pharmaceutical products across the world. But by adding print electronics into it, they can tell whether their pharmaceuticals are still fit for consumption, whether they've been subject to temperature, moisture or shock, things like that. So it's basically adding electronics functionality to packaging. How much of that is printed? Are there any silicon chips in there? Is it a hybrid device? Yes, so it's a hybrid device. I actually have a label here. So as you can see, there's a printed battery. Some of the circuits are used in printed techniques, but there's also electrical components pick and place on the lamp. So it's kind of a hybrid device to create a workable prototype. How long does it last for with the battery? So how many sensor readings can it take? So the idea behind this prototype is to look for around lifetimes of around a year. But I can't go into too much detail about that. But yeah, it's about to create an application that the battery lasts for the lifetime of the product. So it's about finding applications where the battery is viable for that lifetime of the product. Right. And then tell me a bit about this lighting. So this lighting that we have here, we're working with a UK-based company called Design Lead Products. They're actually also exhibiting at the show. So what they're trying to do is use micro LEDs and printed electronic circuitry to create uniform and flexible light. So similar to the characteristics that you see with OLED, but using the LEDs. So what you can see here is a lightened tile that CPI have worked with Design Lead Products on. It's using an inkjet of copper on the reverse side and then LEDs are SMT mounted onto that and then Design Lead and capsulate and take it and then turn it into various different lighting applications. And they've got traction in the automotive market for us in other market sectors as well. And so is this panel that's behind each of these? Yeah. So that panel essentially goes into that. But there's a lot of different applications associated with that. Right. So what we have here is a printed pressure sensor. This application is actually associated with a biker's helmet. So the pressure sensor, the reason why they're interested in printing electronics for that is because it can be conformable to the shape of the skull. Meaning that after impact on if there was to be a crash then they can quickly diagnose how severe the impact is. So it's about the reason why print electronics benefits that is goes back to the flexibility benefits. Right. Now notice you had a label here which says graphene temperature sensor. Yes. So that CPI also works in graphene based technologies as well. That application is using graphene for temperature sensing but we're also working on a number of different areas as well involved in graphene. I think the message that it depends on the application really. Right. If there's benefits of introducing graphene then it's worthwhile doing. If there isn't then it depends on the application. It's the right tool for the technology. Yeah. That's all. What are we looking at here? So that's another printed pressure sensor. Okay. So it's just to show that you can print those different pressure sensors and utilise and print the techniques. So CPI you've got a lot of capability, different printing equipment, pick and place machines, conventional vacuum processing machines as well. Great. And are you seeing more interest and more end users coming to you with their ideas and concepts? Yeah. I think what I like about my job is that you work with large companies but also work with small companies as well and universities as well. So it depends really on the application. I think a key driver for us is around the internet of things. That's where we're receiving a lot of interest from various different clients for different market applications. So connecting everyday objects to the internet. And the reason it seems to be a common driver that the advantage of print electronics is that you can put electronics into places which weren't previously possible using conventional electronics. And it's bringing hybrid electronics together. So yeah. It's quite a cool place to work as well as this thing. Thanks Stephen. Cheers. Alright brilliant. Thanks.