Difference between revisions of "Molecular Vapor Deposition"
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The Molecular Vapor deposition system is used for deposition of a monolayer-thick fluorocarbon film for producing extremely hydrophobic surfaces used for anti-sticking layers for nanoimprinting or anti-stiction layers for MEMS. The system has integrated Oxygen plasma cleaning for organic removal and surface activation and can be run at temperatures up to 80°C. Multi-step recipes can be created. The system is currently configured for FDTS (perflourodecyltricholorsilane) and water to producing the coatings. Up to 6” wafers can be coated in the system. | The Molecular Vapor deposition system is used for deposition of a monolayer-thick fluorocarbon film for producing extremely hydrophobic surfaces used for anti-sticking layers for nanoimprinting or anti-stiction layers for MEMS. The system has integrated Oxygen plasma cleaning for organic removal and surface activation and can be run at temperatures up to 80°C. Multi-step recipes can be created. The system is currently configured for FDTS (perflourodecyltricholorsilane) and water to producing the coatings. Up to 6” wafers can be coated in the system. | ||
| − | == Recipes == | + | ==Recipes== |
| − | * [https://www.nanotech.ucsb.edu/wiki/index.php/Lithography_Recipes#Nanoimprinting_Recipes Nanoimprinting recipes] using FDTS non-stick layer | + | |
| + | *[https://www.nanotech.ucsb.edu/wiki/index.php/Lithography_Recipes#Nanoimprinting_Recipes Nanoimprinting recipes] using FDTS non-stick layer | ||
| + | *MVD Standard Recipes | ||
| + | |||
| + | == Documentation == | ||
| + | |||
| + | * MVD Standard Operating Procedure | ||
Revision as of 15:16, 11 September 2019
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About
The Molecular Vapor deposition system is used for deposition of a monolayer-thick fluorocarbon film for producing extremely hydrophobic surfaces used for anti-sticking layers for nanoimprinting or anti-stiction layers for MEMS. The system has integrated Oxygen plasma cleaning for organic removal and surface activation and can be run at temperatures up to 80°C. Multi-step recipes can be created. The system is currently configured for FDTS (perflourodecyltricholorsilane) and water to producing the coatings. Up to 6” wafers can be coated in the system.
Recipes
- Nanoimprinting recipes using FDTS non-stick layer
- MVD Standard Recipes
Documentation
- MVD Standard Operating Procedure