Show simple item record Wiley, BJ Qin, D Xia, Y
dc.coverage.spatial United States 2011-06-21T17:27:02Z 2010-07-27
dc.identifier.citation ACS Nano, 2010, 4 (7), pp. 3554 - 3559
dc.description.abstract The task of nanofabrication can, in principle, be divided into two separate tracks: generation and replication of the patterned features. These two tracks are different in terms of characteristics, requirements, and aspects of emphasis. In general, generation of patterns is commonly achieved in a serial fashion using techniques that are typically slow, making this process only practical for making a small number of copies. Only when combined with a rapid duplication technique will fabrication at high-throughput and low-cost become feasible. Nanoskiving is unique in that it can be used for both generation and duplication of patterned nanostructures.
dc.format.extent 3554 - 3559
dc.language eng
dc.language.iso en_US en_US
dc.relation.ispartof ACS Nano
dc.relation.isversionof 10.1021/nn101472p
dc.subject Nanostructures
dc.subject Nanotechnology
dc.subject Printing
dc.title Nanofabrication at high throughput and low cost.
dc.title.alternative en_US
dc.type Journal Article
dc.description.version Version of Record en_US 2010-7-0 en_US
duke.description.endpage 3559 en_US
duke.description.issue 7 en_US
duke.description.startpage 3554 en_US
duke.description.volume 4 en_US
dc.relation.journal Acs Nano en_US
pubs.issue 7
pubs.organisational-group /Duke
pubs.organisational-group /Duke/Pratt School of Engineering
pubs.organisational-group /Duke/Pratt School of Engineering/Mechanical Engineering and Materials Science
pubs.organisational-group /Duke/Trinity College of Arts & Sciences
pubs.organisational-group /Duke/Trinity College of Arts & Sciences/Chemistry
pubs.publication-status Published
pubs.volume 4
dc.identifier.eissn 1936-086X

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