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Decal transfer microlithography: a new soft-lithographic patterning method.
A new soft-lithographic method for micropatterning polymeric resists, Decal Transfer Microlithography (DTM), is described. This technique is based on the transfer of elastomeric decal patterns viaExpand
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Large‐Area, Selective Transfer of Microstructured Silicon: A Printing‐ Based Approach to High‐Performance Thin‐Film Transistors Supported on Flexible Substrates
This work was supported by the DARPA-funded and AFRL-managed Macroelectronics Program, and in part by the National Science Foundation (DMI-0355532 and CHE-0402420) using the facilities at theExpand
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State Regulators and Pragmatic Federalism in the United States, 1889–1945
  • W. R. Childs
  • Political Science
  • Business History Review
  • 1 December 2001
State regulators played a large part in constructing the American regulatory system from the late nineteenth century to the midtwentieth. They faced an adversary relationship not only with businessesExpand
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Masterless soft lithography: patterning UV/ozone-induced adhesion on poly(dimethylsiloxane) surfaces.
A novel microreactor-based photomask capable of effecting high resolution, large area patterning of UV/ozone (UVO) treatments of poly(dimethylsiloxane) (PDMS) surfaces is described. This tool formsExpand
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Volcker: The Triumph of Persistence
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Large-area patterning of coinage-metal thin films using decal transfer lithography.
  • W. R. Childs, R. Nuzzo
  • Materials Science, Medicine
  • Langmuir : the ACS journal of surfaces and…
  • 4 January 2005
We describe two new procedures that appear to hold significant promise as means for patterning thin-film microstructures of the coinage metals (Cu, Ag, Au). A feature central to both is theExpand
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Micron and submicron patterning of polydimethylsiloxane resists on electronic materials by decal transfer lithography and reactive ion-beam etching: Application to the fabrication of high-mobility,
We describe a technique for fabricating micron and submicron-sized polydimethylsiloxane (PDMS) patterns on electronic material substrates using decal transfer lithography (DTL) in conjunction withExpand
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