Parylene C, a chlorinated poly(para-xylylene) polymer, is widely employed as a biocompatible, corrosion-resistant coating, as a packaging material, and as an optically transparent material. Parylene conformal coatings are ultra-thin, pinhole-free polymer coatings that provide a number of high-value surface treatment properties such as excellent moisture, chemical and dielectric barrier properties, thermal and UV stability, and dry-film lubricity. These properties make Parylene coatings the ideal choice for a number of applications throughout the medical device, electronics, transportation, defense and aerospace industries.
Parylene is deposited in the SCS PDS 2035 CR
- Parylene films have very low surface energy, which gives them excellent lubricant properties, and bad adhesion properties. To improve adhesion and hydrophilicity reseachers use plasma activation
- Room temperature formation means the coatings are effectively stress-free
- Parylene is chemically and biologically inert and stable and make excellent barrier material.
- Parylene has excellent electrical properties: low dielectric constant and loss with good high-frequency properties; good dielectric strength; and high bulk and surface resistance.
- Parylene has good thermal endurance: Parylene C performs in air without significant loss of physical properties for 10 years at 80°C and in the absence of oxygen to temperatures in excess of 200°C.
- Parylene is optically transparent and can be used to coat optical elements.
- FDA approved material
- Parylene coating has excellent mechanical properties, including high tensile strength.
- Parylene is stable over a very wide temperature range (-200 ‘C to +200 ‘C), allowing the chamber items coated in Parylene to be put in an autoclave
- Parylene is unaffected by solvents
Similar to other polymers, parylene can be etched isotropically with an O2 plasma.
- Plasmatherm 790
- LAM 9400
- STS Glass Etcher
For complete information on Parylene C physical properties see: Parylene C TDS