Friday, April 18, 2014
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Vacuum Bake Oven Systems

YES-310TA & YES-58TA
Stainless Steel Process Cassettes
HMDS Application Note

The vacuum bake/vapor prime process provides a "one-stop" environment for substrate dehydration and vapor deposition of hexamethyldisilizane (HMDS). Because of HMDS lithography preprocessing, YES systems give an HMDS prime layer with superior uniformity and stability.

In wafer fabrication, silane deposition is needed to promote the chemical adhesion of an organic compound (photoresist) to a non-organic substrate (wafer). The silane acts as a sort of "bridge," with properties that will bond to both the photoresist and wafer surface. Typically, hexamethyldisilizane (HMDS) is used.

Old wet processes for depositing silane generated a substantial amount of hazardous waste. Plus, the coating had a limited lifespan, meaning a process engineer had a small window of time to apply photoresist before the bond would degrade.

But today, using the vacuum bake/vapor prime process, you can significantly extend time available between process steps. Plus, chemical usage for a vapor deposition process is typically less than 1% of the amount needed for wet application processes, significantly reducing waste and chemical costs.

The Need for Complete Dehydration

HMDS adhesion

In order to promote a strong silane bond to the substrate, first, wafers must be completely dehydrated—not only surface moisture, but the chemically bound water molecules as well. To achieve this, YES developed a process combining heat with low pressure. Once dehydrated, wafers are then primed with an HMDS vapor to strengthen photoresist adhesion. Properly treated wafers will last for weeks with no change to surface adhesion.

MEMS Applications

  • Wafer Dehydration
  • The moisture on the surface of wafers will cause unintended reactions with various deposition steps. These reactions result in unstable surface which degrade over time. Vacuum dehydration provides a clean stable surface resulting in superior films.

Image Reversal Process

The image reversal process reverses the action of positive resist so negative images can be formed with the same resolution and processing ease that a positive resist allows. What's more, image reversal allows variations of the slope of the photoresist sidewall for higher resolution and/or lift off profiles.

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