Kateri E. Paul scite author profile

Composite stamps composed of two layerssa stiff layer supported by a flexible layersextend the capabilities of soft lithography to the generation of 50-100-nm features. The preparation of these stamps was adapted from a procedure originally developed by Schmid et al. (Macromolecules 2000, 33, 3042) for microcontact printing. This paper demonstrates how pattern transfer using other soft lithographic techniquessmicromolding in capillaries, microtransfer molding, and phase-shifting lithographyscan be improved using two-layer stamps relative to stamps made of Sylgard 184 poly(dimethylsiloxane).

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The controlled formation of ordered, sinusoidal structures by plasma oxidation of an elastomeric polymer

Bowden¹,

Huck²,

Paul³

et al. 1999

619

634

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This letter describes a technique for generating waves on polydimethylsiloxane ͑PDMS͒ patterned in bas-relief. The PDMS is heated, and its surface oxidized in an oxygen plasma; this oxidation forms a thin, stiff silicate layer on the surface. When the PDMS cools, it contracts and places the silicate layer under compressive stress. This stress is relieved by buckling to form patterns of waves with wavelengths from 0.5 to 10 m. The waves are locally ordered near a step or edge in the PDMS. The wavelength, amplitude, and pattern of the waves can be controlled by controlling the temperature of the PDMS and the duration of the oxidation. The mechanism for the formation and order of the waves is described.

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Formation and Structure of Self-Assembled Monolayers of Alkanethiolates on Palladium

et al. 2003

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The adsorption of n-alkanethiols onto polycrystalline thin films of palladium containing a strong (111) texture produces well-organized, self-assembled monolayers. The organization of the alkane chains in the monolayer and the nature of the bonding between the palladium and the thiol were studied by contact angle measurements, optical ellipsometry, reflection absorption infrared spectroscopy (RAIRS), and X-ray photoelectron spectroscopy (XPS). The XPS data reveals that a compound palladium-sulfide interphase is present at the surface of the palladium film. The RAIR spectra, ellipsometry data, and wetting properties show that the palladium-sulfide phase is terminated with an organized, methyl-terminated monolayer of alkanethiolates. The local molecular environment of the alkane chains transitions from a conformationally disordered, liquidlike state to a mostly all-trans, crystalline-like structure with increasing chain length (n = 8-26). The intensities and dichroism of the methylene and methyl stretching modes support a model for the average orientation of an ensemble of all-trans-conformer chains with a tilt angle of approximately 14-18 degrees with respect to the surface normal and a twist angle of the CCC plane relative to the tilt plane of approximately 45 degrees. The SAMs are stable in air, although the sulfur present at the surface oxidizes in air over a period of 2-5 days at room temperature. The differences in chain organization between SAMs formed by microcontact printing and by solution deposition are also examined by RAIRS and XPS.

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Kateri E. Paul

Unconventional Methods for Fabricating and Patterning Nanostructures

Improved Pattern Transfer in Soft Lithography Using Composite Stamps

The controlled formation of ordered, sinusoidal structures by plasma oxidation of an elastomeric polymer

Formation and Structure of Self-Assembled Monolayers of Alkanethiolates on Palladium

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