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Literature DB >> 19880976

Fabrication of nanopore arrays and ultrathin silicon nitride membranes by block-copolymer-assisted lithography.

Ana-Maria Popa¹, Philippe Niedermann, Harry Heinzelmann, Jeffrey A Hubbell, Raphaël Pugin.

Abstract

Here we show a method for patterning a thin metal film using self-assembled block-copolymer micelles monolayers as a template. The obtained metallic mask is transferred by reactive ion etching in silicon oxide, silicon and silicon nitride substrates, thus fabricating arrays of hexagonally packed nanopores with tunable diameters, interspacing and aspect ratios. This technology is compatible with integration into a standard microtechnology sequence for wafer-scale fabrication of ultrathin silicon nitride nanoporous membranes with 80 nm mean pore diameter.

Entities: Chemical

Year: 2009 PMID： 19880976 DOI： 10.1088/0957-4484/20/48/485303

Source DB: PubMed Journal: Nanotechnology ISSN： 0957-4484 Impact factor: 3.874

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Cited

5 in total

5. Nanoporous silicon nitride-based membranes of controlled pore size, shape and areal density: Fabrication as well as electrophoretic and molecular filtering characterization.

Authors: Axel Seidenstücker; Stefan Beirle; Fabian Enderle; Paul Ziemann; Othmar Marti; Alfred Plettl
Journal: Beilstein J Nanotechnol Date: 2018-05-09 Impact factor: 3.649

5 in total

Fabrication of nanopore arrays and ultrathin silicon nitride membranes by block-copolymer-assisted lithography.

Review 1. Use of porous membranes in tissue barrier and co-culture models.

Review 2. Fabrication techniques enabling ultrathin nanostructured membranes for separations.

Review 3. Atomic force microscopy with sub-picoNewton force stability for biological applications.

4. The Effect of the Pore Entrance on Particle Motion in Slit Pores: Implications for Ultrathin Membranes.

5. Nanoporous silicon nitride-based membranes of controlled pore size, shape and areal density: Fabrication as well as electrophoretic and molecular filtering characterization.