G
Ginger M. Denison
Researcher at University of North Carolina at Chapel Hill
Publications - 3
Citations - 271
Ginger M. Denison is an academic researcher from University of North Carolina at Chapel Hill. The author has contributed to research in topics: Molding (process) & Soft lithography. The author has an hindex of 1, co-authored 3 publications receiving 271 citations.
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Patent
Methods for fabricating isolated micro- and nano- structures using soft or imprint lithography
Joseph M. DeSimone,Jason P. Rolland,Ansley E. Exner,Edward T. Samulski,R. Jude Samulski,Benjamin W. Maynor,Larken E. Euliss,Ginger M. Denison +7 more
TL;DR: In this paper, the use of fluorinated elastomer-based materials in particular perfluoropolyether (PFPE)-based materials, in high-resolution soft or imprint lithographic applications, such as micro- and nanoscale replica molding, was described.
Patent
Method for preparing isolated microstructure and isolated nanostructure using soft lithography or imprint lithography
エム. デシモネ ジョセプフ,Joseph M. DeSimone,ピー. ロルランド ジャソン,Jason P. Rolland,イー. エクスネル アンスレイ,Ansley E. Exner,ティー. サムルスキ エドワルド,Edward T. Samulski,ジュデ サムルスキ アール,R. Jude Samulski,ダブリュー. マイノル ベンジャミン,Benjamin W. Maynor,イー. エウリスス ラルケン,E Julius Ralken,エム. デニソン ギンゲル,Ginger M. Denison +15 more
TL;DR: In this paper, a free-standing, isolated nanostructure of any shape is produced on a matrix template 100 by the use of a fluorinated elastomer-based material as a liquid material, in particular by using a perfluoropolyether (PFPE)-based material in high-resolution soft or imprint lithographic applications, such as micro- and nano-scale replica molding, and the first nano-contact molding of an organic material to generate features with high reproducibility using an elasticic mold.
Patent
Monodisperse micro-structure or nano-structure product
Joseph M. DeSimone,Jason P. Rolland,Ansley E. Exner,Edward T. Samulski,R. Jude Samulski,Benjamin W. Maynor,Larken E. Euliss,Ginger M. Denison +7 more
TL;DR: In this paper, the use of fluorinated elastomer-based materials in particular perfluoropolyether (PFPE)-based materials, in high-resolution soft or imprint lithographic applications, such as micro- and nanoscale replica molding, was described.