Nasiol superhydrophobic nano coatings
We are living in a throwaway society where products are manufactured cheaply and not made to last. Not many of us can afford to replace all the things we own every few years, nor do we want to, this has given us the chance to look at different preservative technologies. The utilization of Nanotechnology and Fluorocarbon has become a technique renowned for product coating, and Nasiol uses nanotechnology instead of fluorocarbon.
What is Fluorocarbon?
Fluorocarbon is a material which is scientifically enhanced, combining characteristics from PTFE, or trademarks of PTFE which are Teflon, Xylan, and Emralon. It is the substance coating materials employ to increase the chemical reactivity of its subject against depreciative effects like rust and corrosion.
It can be applied to an object by spraying, dipping, or any of the usual painting techniques. The coating’s potential to lubricate at room temperatures of up to 200 °C make it advantageous, even for high-end aerospace applications. The coating is also capable of repelling liquid on a microscopic scale, meaning it is functional for numerous nautical and automotive applications.
Both in the environment and in human tissue, PFOS and PFOA and have been proven to be highly persistent chemicals. One study recently associated these chemicals with serious harm to the immune system in children (Grandjean et al, 2012).
Yet PFOS and PFOA are just two of a variety of fluorochemicals called PFCs, which are part of the fluorocarbon family. Some manufacturers have applied fluorocarbons domestically, using them as water-repellents, so the unknown risks continue.
What is Nanotechnology?
Measured in the nanometer range, nanotechnology is the conduction of science, engineering, and technology on a minute scale. A nanometer is equal to one thousand-millionth of a meter. Working at such a minute scale has allowed observation and control of individual atoms inside a molecule.
This technology is employed to enhance materials characteristics like lighter mass, improved control of the light-spectrum, increased strength, improved control of absorbency and chemical reactivity.
Nanocoatings versus Fluorocarbon Coatings
It is clear that fluorocarbon coatings boost the carbon emissions if we compare both of these coatings. Yet, nanocoatings lower carbon emissions of industries, plus an individual’s carbon footprints, by decreasing the utilization of fossil fuels and detergents etc. Nano coatings are being improved by scientists every day, and numerous forms can be utilized up to 275 °C.
This information has been sourced, reviewed and adapted from materials provided by Nasiol.
For more information on this source, please visit Nasiol.