I am curious to learn about this technology and would really love to get in touch with anyone who has experience or has worked with this technology. Thank you
Semiconductor technology, for example, relies heavily on thin film deposition and characterization. It's also important for all kinds of functional coatings. It is in that sense very established already.
Challenges:
- Better control over film properties and better understanding of structure-property relations
- Cheaper or better deposition methods
- New materials
- New applications, for example new types of devices built from thin films
- What are ideal film properties for a given application? How can we achieve them?
Examples:
- Better conducting electrodes for displays
- Semiconductors with higher mobility
- Better efficiency for LEDs
- Dielectrics with lower losses, less leakage, higher strength or higher dielectric constant
- Coatings to promote tissue growth and adhesion, generally bioactive coatings
Semiconductor technology, for example, relies heavily on thin film deposition and characterization. It's also important for all kinds of functional coatings. It is in that sense very established already.
Challenges:
- Better control over film properties and better understanding of structure-property relations
- Cheaper or better deposition methods
- New materials
- New applications, for example new types of devices built from thin films
- What are ideal film properties for a given application? How can we achieve them?
Examples:
- Better conducting electrodes for displays
- Semiconductors with higher mobility
- Better efficiency for LEDs
- Dielectrics with lower losses, less leakage, higher strength or higher dielectric constant
- Coatings to promote tissue growth and adhesion, generally bioactive coatings
Atomic layer deposition (ALD) is coming up with new thin film depositions for different applications in technology, specially in semiconductor technology.