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A '''Parylene coater''' is a Chemical Vapour Deposition (CVD) system used to deposit ultra-thin, uniform, and pinhole-free Parylene polymer films on a wide variety of substrates. Unlike conventional liquid coating methods, Parylene coating is performed entirely in the vapour phase under vacuum, allowing the polymer to coat complex three-dimensional structures with excellent conformality. This process is widely used in electronics, medical devices, MEMS, aerospace, automotive, and sensor technologies because of its outstanding dielectric, moisture-barrier, and biocompatibility properties.
Parylene is the common name for a family of poly(p-xylylene) polymers deposited as thin, conformal films by chemical vapour deposition (CVD). Unlike liquid coatings (spray, dip, spin), parylene is deposited from the vapour phase with no solvent, catalyst, or curing step. This gives pinhole-free, uniform-thickness films on virtually any geometry, including sharp edges, crevices, and fine features that liquid coatings cannot reach evenly.
 
A parylene coater is the integrated CVD system — vaporiser, pyrolysis furnace, deposition chamber, cold trap, and vacuum system — used to run this process.


=== Working Principle ===
=== Working Principle ===

Revision as of 14:38, 9 July 2026

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Parylene is the common name for a family of poly(p-xylylene) polymers deposited as thin, conformal films by chemical vapour deposition (CVD). Unlike liquid coatings (spray, dip, spin), parylene is deposited from the vapour phase with no solvent, catalyst, or curing step. This gives pinhole-free, uniform-thickness films on virtually any geometry, including sharp edges, crevices, and fine features that liquid coatings cannot reach evenly.

A parylene coater is the integrated CVD system — vaporiser, pyrolysis furnace, deposition chamber, cold trap, and vacuum system — used to run this process.

Working Principle

The Parylene deposition process consists of four main stages:

  1. Sublimation: Solid Parylene dimer is heated (approximately 120–180°C) under vacuum to produce a vapour.
  2. Pyrolysis: The vapour passes through a high-temperature furnace (650–750°C), where the dimer molecules split into reactive monomers.
  3. Deposition and Polymerisation: The monomer enters a slightly heated vacuum chamber containing the substrate. The monomer condenses and polymerises directly on all exposed surfaces, forming a thin, conformal polymer coating.
  4. Cold Trap: Residual monomer and by-products are captured in a cryo-cooled cold trap before reaching the vacuum pump.