PGMA-b-PVDMA Film Generation and Parylene Stencil Lift-Off from Silicon Substrates
2:42
PGMA-b-PVDMA Interface-Directed Assembly on Chemically- or Biologically-Inert Substrates
4:48
Custom PGMA-b-PVDMA Micro-Contact Printing (μCP)
7:00
Results: Brush-Like Patterns and Crosslinked Azlactone Films on Silicon Substrates
8:32
Conclusion
副本
These presented methods utilize parylene liftoff interface directed assembly and custom microcontact printing techniques. The methods are designed to provide high uniformity and control over the pattern polymer thickness. These methods are also de
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Surface fabrication methods for patterned deposition of nanometer thick brushes or micron thick, crosslinked films of an azlactone block co-polymer are reported. Critical experimental steps, representative results, and limitations of each method are discussed. These methods are useful for creating functional interfaces with tailored physical features and tunable surface reactivity.