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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

433 related items for PubMed ID: 15856084

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  • 5. Top-down meets bottom-up: dip-pen nanolithography and DNA-directed assembly of nanoscale electrical circuits.
    Chung SW, Ginger DS, Morales MW, Zhang Z, Chandrasekhar V, Ratner MA, Mirkin CA.
    Small; 2005 Jan; 1(1):64-9. PubMed ID: 17193349
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  • 6. Nanoskiving: a new method to produce arrays of nanostructures.
    Xu Q, Rioux RM, Dickey MD, Whitesides GM.
    Acc Chem Res; 2008 Dec; 41(12):1566-77. PubMed ID: 18646870
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  • 10. Vertical arrays of nanofluidic channels fabricated without nanolithography.
    Sordan R, Miranda A, Traversi F, Colombo D, Chrastina D, Isella G, Masserini M, Miglio L, Kern K, Balasubramanian K.
    Lab Chip; 2009 Jun 07; 9(11):1556-60. PubMed ID: 19458862
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  • 11. Titanium-based dielectrophoresis devices for microfluidic applications.
    Zhang YT, Bottausci F, Rao MP, Parker ER, Mezic I, Macdonald NC.
    Biomed Microdevices; 2008 Aug 07; 10(4):509-17. PubMed ID: 18214682
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  • 12. Design and evaluation of a Dean vortex-based micromixer.
    Howell PB, Mott DR, Golden JP, Ligler FS.
    Lab Chip; 2004 Dec 07; 4(6):663-9. PubMed ID: 15570382
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  • 14. Microfluidic capture and release of bacteria in a conical nanopore array.
    Guo P, Hall EW, Schirhagl R, Mukaibo H, Martin CR, Zare RN.
    Lab Chip; 2012 Feb 07; 12(3):558-61. PubMed ID: 22170441
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  • 15. Nanofluidic technology for biomolecule applications: a critical review.
    Napoli M, Eijkel JC, Pennathur S.
    Lab Chip; 2010 Apr 21; 10(8):957-85. PubMed ID: 20358103
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  • 16. Electric-field-controlled flow in nanoscale-thin wetting films.
    Kleinert J, Kim S, Velev OD.
    Langmuir; 2012 Feb 07; 28(5):3037-44. PubMed ID: 22195978
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  • 19. Nanointerstice-driven microflow.
    Chung S, Yun H, Kamm RD.
    Small; 2009 Mar 07; 5(5):609-13. PubMed ID: 19226594
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  • 20. Nanotechnology and the chip.
    Moore R.
    Med Device Technol; 2008 Sep 07; 19(5):38, 40-1. PubMed ID: 18947149
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