Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules
The wide use of microfluidics for biological analysis demands scalable preparation methods, yet in practice it is very challenging. Here, Wanget al. show a wafer-scale fabrication of nanofluidic chips with single-digit nanometre dimension, which is compatible with standard semiconductor processing.
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Nature Portfolio
2017
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oai:doaj.org-article:8dfe6382a6f3435d9401956b405c4b222021-12-02T17:01:17ZWafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules10.1038/ncomms142432041-1723https://doaj.org/article/8dfe6382a6f3435d9401956b405c4b222017-01-01T00:00:00Zhttps://doi.org/10.1038/ncomms14243https://doaj.org/toc/2041-1723The wide use of microfluidics for biological analysis demands scalable preparation methods, yet in practice it is very challenging. Here, Wanget al. show a wafer-scale fabrication of nanofluidic chips with single-digit nanometre dimension, which is compatible with standard semiconductor processing.Chao WangSung-Wook NamJohn M. CotteChristopher V. JahnesEvan G. ColganRobert L. BruceMarkus BrinkMichael F. LofaroJyotica V. PatelLynne M. GignacEric A. JosephSatyavolu Papa RaoGustavo StolovitzkyStanislav PolonskyQinghuang LinNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-9 (2017) |
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Science Q |
spellingShingle |
Science Q Chao Wang Sung-Wook Nam John M. Cotte Christopher V. Jahnes Evan G. Colgan Robert L. Bruce Markus Brink Michael F. Lofaro Jyotica V. Patel Lynne M. Gignac Eric A. Joseph Satyavolu Papa Rao Gustavo Stolovitzky Stanislav Polonsky Qinghuang Lin Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
description |
The wide use of microfluidics for biological analysis demands scalable preparation methods, yet in practice it is very challenging. Here, Wanget al. show a wafer-scale fabrication of nanofluidic chips with single-digit nanometre dimension, which is compatible with standard semiconductor processing. |
format |
article |
author |
Chao Wang Sung-Wook Nam John M. Cotte Christopher V. Jahnes Evan G. Colgan Robert L. Bruce Markus Brink Michael F. Lofaro Jyotica V. Patel Lynne M. Gignac Eric A. Joseph Satyavolu Papa Rao Gustavo Stolovitzky Stanislav Polonsky Qinghuang Lin |
author_facet |
Chao Wang Sung-Wook Nam John M. Cotte Christopher V. Jahnes Evan G. Colgan Robert L. Bruce Markus Brink Michael F. Lofaro Jyotica V. Patel Lynne M. Gignac Eric A. Joseph Satyavolu Papa Rao Gustavo Stolovitzky Stanislav Polonsky Qinghuang Lin |
author_sort |
Chao Wang |
title |
Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
title_short |
Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
title_full |
Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
title_fullStr |
Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
title_full_unstemmed |
Wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single DNA molecules |
title_sort |
wafer-scale integration of sacrificial nanofluidic chips for detecting and manipulating single dna molecules |
publisher |
Nature Portfolio |
publishDate |
2017 |
url |
https://doaj.org/article/8dfe6382a6f3435d9401956b405c4b22 |
work_keys_str_mv |
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