Details

Autor(en) / Beteiligte

• Masigol, Mohammadali
• Barua, Niloy
• Retterer, Scott T.
• Lokitz, Bradley S.
• Hansen, Ryan R.

Titel

Chemical copatterning strategies using azlactone-based block copolymers

Ist Teil von

• Journal of vacuum science and technology. B, Nanotechnology & microelectronics, 2017-11, Vol.35 (6)

Ort / Verlag

United States: American Vacuum Society/AIP

Erscheinungsjahr

2017

Link zum Volltext

Quelle

AIP Journals Complete

Beschreibungen/Notizen

• Interfaces can be modified with azlactone-functional polymers in order to manipulate the chemical surface reactivity. Azlactone groups are highly reactive toward amine, thiol, and alcohol nucleophiles, providing a versatile coupling chemistry for secondary surface modification. Azlactone-based surface polymers have been explored in numerous applications, including chemical and biological capture, sensing, and cell culture. These applications often require that the polymer is copatterned within a chemically or biologically inert background; however, common fabrication methods degrade azlactone groups during processing steps or result in polymer films with poorly controlled thicknesses. Here, the authors develop fabrication strategies using parylene lift-off and interface-directed assembly methods to generate microscale patterns of azlactone-based block copolymer in chemically or biologically inert backgrounds. The functionality of azlactone groups was preserved during fabrication, and patterned films appeared as uniform, 80–120 nm brushlike films. The authors also develop a patterning approach that uses a novel microcontact stamping method to generate cross-linked, three-dimensional structures of azlactone-based polymers with controllable, microscale thicknesses. The authors identify the benefits of each approach and expect these polymers and patterning strategies to provide a versatile toolbox for developing synthetic interfaces with tuned chemical and physical features for sensing, cell culture, or material capture applications.