GRAPHENE
Graphene is the lightest, strongest, most conductive material ever discovered... It also comes with a Nobel Prize. While the existence of graphene as a supermaterial was first theorised in the 1940s, it wasn’t until 2004 that two maverick scientists at the University of Manchester were able to isolate and test it. In 2010 their work won them the Nobel Prize. Thanks to their pioneering work we’ve been creating our own world-firsts with graphene since 2018.
AEROGEL
If you’ve never heard of aerogel before, it’s an insulator, and an astonishingly effective one. Which is exactly why NASA use it to line their spacesuits. It’s almost impossible for cold air to pass through it as its individual nanopores are 10,000 times thinner than a human hair. After 10 years of R&D, a durable aerogel insulation came into being, and that is what you will find lining our Martian Aerogel Jacket.
DNA
Sheep have been cloned. The human genome has been mapped. And now we're using DNA to make clothing. When we first started making clothing, the idea of getting to work with DNA seemed as improbable as working with single layer graphene, or kryptonite. But thanks to two Cambridge scientists Orr Yarkoni and Jim Ajioka, we’re on the edge of a small revolution. Thanks to their research, instead of using synthetic dyes, it’s now possible to genetically engineer colours, growing them from scratch in a lab. In short, we now have an entire range of clothes made from genetically engineered microorganisms and DNA.
Metal
We're exploring metal as one of the future building blocks of bionic and intelligent clothing. Our Full Metal Jacket was hailed by WIRED as “the virus-killing coat of the future” and won TIME Best Inventions, while our Steel Blazer is made from 24% stainless steel, the same material as the first SpaceX starship.
Thrown out of supernovas billions of years ago, copper became central to the rise of civilisation, creating tools and sterilising water, before enabling modern day communication, transport, and electrical power. Now, as we look for materials that offer us resistance to disease on Earth and up in space, and a base on which to build intelligent clothing, copper is set to be at the centre of innovation again.
Dyneema
Weight for weight, Dyneema is 15x stronger than steel. Which is why you’ll find it in body armour, anti-ballistic vehicle armour, and mooring systems for giant container ships. Today we also use it to build our Indestructible range which includes the world’s strongest jacket, puffer, and belt.
The science behind the glow
Fluorescent and phosphorescent materials absorb high-energy UV light that the human eye can’t see, and re-emit it as low-energy light that it can see. The only difference between the two of them is how long that process takes. Fluorescent materials re-emit light instantly, so you need a constant source of UV light to see them. Phosphorescent materials re-emit light over time, giving them a glow-in-the-dark effect that can last for seconds, minutes, or hours after the light source is removed. Thanks to the two different membranes, The Firefly Jacket does both.