Summer is fading into a memory now, but as surely as the earth orbits the sun, those hot and sweaty days will return soon enough. And what can you do about it at the level of a single, suffering human being? After all, a person can only remove so much clothing to help cool off. Until someone figures out a way to make those stillsuits from Dune, we need an interim solution in which to drape ourselves.
We’ve seen the whitest paint possible for cooling buildings, and then we saw a newer, whiter and more award-winning paint a few months later. This paint works by the principle of passive cooling. Because of its color and composition, it reflects most light and absorbs some heat, which gets radiated away into the mid-infrared spectrum. It does this by slipping out Earth’s atmospheric window and into space. Now, a team based in China have applied the passive cooling principle to fabric.
Wait, What’s the Atmospheric Window?
Technically speaking, there are two atmospheric windows — one in the infrared spectrum, and another in the radio spectrum. For the purposes of this discussion, we are only concerned with the infrared window. But let’s back up a bit.
The energy radiating from the Sun includes much more than just the light we see and the heat we feel. Earth’s upper atmosphere absorbs gamma rays, x-rays, and some of the ultraviolet part of the spectrum. Think of the upper atmosphere as a blanket that protects Earth from these harmful rays.
There is a hole in the blanket — or a window, if you will — in the low end of the infrared range (roughly 8-14 μm) that lets in visible light and heat because none of the atmospheric gasses absorb that wavelength. That’s a good hole; it’s a hallmark of a habitable planet. So, this is what is meant by the atmospheric window — light and heat can go both ways. The window lets in light and heat, but more importantly, it also lets it escape. This way the planet is nice and warm, but not to a deadly degree.
Fabric of the Universe
So, back to the fabric. To reiterate, passive cooling materials work by reflecting almost all of the incoming light, keeping those energetic photons from heating the surface. These materials also absorb heat from whatever they’re covering and radiate it out.
Passively cooling something like a building is kind of a set-it-and-forget-it type of thing. Clothing, on the other hand, has to be flexible, breathable, and must stand up to repeated washings. So, how does this fabric work already? Much of its reflectivity comes from titanium dioxide powder, like the stuff in some kinds of sunscreen. These titanium dioxide nanoparticles are embedded in fibers made of PLA, which emit radiation (lose heat) in the mid-infrared spectrum.
Then the fabric is further coated with polyetrafluoroethylene (PTFE), which reflects the part of the UV spectrum …read more
Source:: Hackaday