szyhnc, we know the automotive OEMs have thin margins. But there's a huge aftermarket for all kinds of add-ons, including cameras, additional sideview mirrors, etc. that this coating might be applied to, and that people spend a surprising (to me) amount of money in. The only tests I saw mentioned were touching the surface, applying and then peeling off a piece of tape, and wiping the surface with a tissue. Since these took place in a university research lab, apparently there's been no wind tunnel or waterfall tests yet.
Ann, Don't look for funding from the auto industry soon. Thire margins (except for low volumn exotics) are too thin. A more luctrative source might be aviation when bugs and dirt can have real safety implications. Will this surface stand up to high velocity air and water flows?
That's a good point, Ann, on getting to see the follow-through on the technology. Alot of things we report on don't ever make it into commercial use. Good on you as well for following up and reporting on what happens when the technology leaves the lab.
I agree that carnivorous plants are fascinating, but don't know much about them beyond the Venus flytrap. I've never actually observed them up close but think they would be quite wild to see. When I was young and first learned about them I actually was afraid they could eat me! But then again, I was a nervous child. ;)
I can think of a practical application. Have you watched the Indy 500 with the onboard cameras running? The glass cover on the camera has to rotate when it gets dirty so as to expose a fresh clean area. This substance could make lens cleaning unnecessary. I see that there is increased interest in backup cameras being installed on automobiles. This stuff could make it easy to keep road dirt off the camera lens.
Glad you liked this one, Nadine. We don't always get to find out what happens to some of these inventions after the initial reports and sometimes nothing happens and they don't get any further towards commercialization. My first introduction to a carnivorous plant was science class, also a Venus Flytrap. Smelly! Mostly because of the dead insects decomposing.
It's nice to see the progress being made here. I can't wait to see real world application.
As a kid, we had a Venus Flytrap plant. Carnivorous plants are really interesting to watch. Other kids may have torched ants with magnifying glasses; I caught flies to feed to our plant! Great inspiration.
I agree, the creativity shown in this one meets part of my definition of innovation. What I also liked about it is the fact that the researchers have continued to pursue this line of inquiry and now have a third-generation or so implementation of the original material concept. The next-gen version after this one will most likely be a commercialized form.
What should be the perception of a product’s real-world performance with regard to the published spec sheet? While it is easy to assume that the product will operate according to spec, what variables should be considered, and is that a designer obligation or a customer responsibility? Or both?
Biomimicry has already found its way into the development of robots and new materials, with researchers studying animals and nature to come up with new innovations. Now thanks to researchers in Boston, biomimicry could even inform the future of electrical networks for next-generation displays.
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