An oleophobic coating is an oil-repellent coating. This means that it does not allow oil to absorb. A common oleophobic substance is water, but this quality can be produced on other materials with the help of Thierry treatment processes. The most useful aspect of oleophobic coatings is that they can make materials fingerprint-resistant because they repel the oils that are produced by the skin. Oleophobic coatings are most commonly used in medical supplies and the consumer electronics industry. They are used to coat medical tubing, endoscope lenses, surgical visors and shields. More recently, oleophobic coatings are being used extensively to make smudge-resistant touch screens for smartphones and tablets.
Oleophobic Coatings are deposited on materials using a plasma process called plasma enhanced chemical vapor deposition. This takes an oleophobic substance and evaporates it within a chamber. This process binds the oleophobic substance to the material on the surface creating a thin permanent layer that does not require reapplication.
To learn more about the use of plasma in manufacturing, please read our eBook titled "Manufacturer’s Surface Activation Guide for Improved Adhesion."
The main difference between oleophobic and hydrophilic coatings is the fact that the former is related to oils while the latter is connected to water. More specifically, a surface is said to be oleophobic if it repulses oil. Hydrophilic implies that the coated area attracts or absorbs water very well. A more quantitative way to characterize hydrophilicity is the so-called contact angle, which is determined by a goniometer. When a droplet of demineralized water is put onto an area, its surface will have a certain angle with this area due to its surface tension. In the case of a hydrophilic coating, a drop of water will lie flat on the surface. Thus, it has quite a small angle with the contact area. If this angle is below 30°, the surface is considered to be hydrophilic.
There are two common ways to achieve oleophobic coatings – either by deposition of fluoropolymers, or nano-structured surfaces. Both options can be achieved with plasma coating technologies. Thierry Corp. can help you with finding the right plasma source for this purpose.
There are many benefits from oleophobic coatings, no matter if they are fluoropolymer or nano coatings. In general, oil-repellent surfaces are much easier to clean and the usage of isopropyl alcohol or other solvents can be greatly reduced or even avoided entirely. Consumers enjoy smartphone touchscreens that do not require much polishing, just a swift wipe with a piece of cloth. Industrial actors, on the other hand, gain advantages through oleophobic pipes for oil transportation, or self-cleaning textiles and anti-fingerprint surfaces. Surfaces with an oleophobic treatment allow much more convenient cleaning and enhanced anti-microbial properties. Both of these aspects are of utmost importance in the medical and healthcare field.
Apply your oleophobic coatings now with a suitable plasma source from Thierry Corp.
To learn more about the use of plasma in manufacturing, please read our eBook titled "Manufacturer’s Surface Activation Guide for Improved Adhesion."