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JOURNAL OF APPLIED PHYSICS 99, 08K101 共2006兲 Microfluidic high gradient magnetic cell separation David W. Inglisa兲 Princeton Institute for the Science and Technology of Materials, PRISM, Princeton University, Prin
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Document Date: 2007-11-06 01:23:53

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City

Auburn / Melville / Dekker / London / J. C / Austin / /

Company

L. Moore L. C. / /

Currency

USD / /

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Facility

Princeton University / American Institute of Physics Downloaded / James C. Sturm Princeton Institute / Princeton Institute / American Institute of Physics / /

IndustryTerm

HIV treatment / notable applications / microfluidic device / chip technology / handheld medical diagnostic tools / rapid medical diagnostic tools / cell separation device / magnetic separation device / separation devices / handheld diagnostic device / microfluidic devices / /

MedicalCondition

tumor / malignant tumor / HIV / infection / /

Organization

American Institute of Physics Downloaded / National Institute of Health / American Institute of Physics / National Science Foundation / Robert H. Austin Department of Physics / Princeton University / Princeton Institute for the Science and Technology of Materials / Robert Riehn Department of Physics / James C. Sturm Princeton Institute for the Science and Technology of Materials / /

Person

David W. Inglisa / J. Magn / /

Position

M. D. Porter / /

ProvinceOrState

New Jersey / New York / New / /

PublishedMedium

JOURNAL OF APPLIED PHYSICS / /

Technology

lab on a chip / Electrophoresis / lasers / Microfluidics technology / antibodies / stem cells / Technology of Materials / microfluidics / lab on a chip technology / Lab Chip / medical diagnostic / /

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http /

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