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Molecular biology / Gene delivery / Laser medicine / Laser science / Mode-locking / Transfection / High-throughput screening / Microfluidics / Neurotechnology / Biology / Science / Scientific method


Chapter 23. High-Throughput Neurotechnology High-Throughput Neurotechnology Academic and Research Staff Assoc. Prof. Mehmet Fatih Yanik (PI) Chrysa Samara, Postdoctoral Fellow
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Document Date: 2011-04-14 10:47:32

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File Size: 2,21 MB

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City

Samara / /

Company

Norton / Stemgent Inc. / /

EntertainmentAwardEvent

Director’s New Innovator Award / Director’s Innovator Award / /

Facility

Scale bar / /

IndustryTerm

In vivo chemical screen / software failures / dye-filled microfluidic chip / microfluidic chips / chemical library screening / confocal imaging / microfluidic technologies / step-by-step protocol / throughput high-content technologies / widefield fluorescence imaging / brightfield imaging / chemical screens / fluorescence imaging / imaging / silicone rubber block / chemicals / stainless steel tube / /

NaturalFeature

Island of La Grande Jatte / /

Organization

High-Throughput Neurotechnology High-Throughput Neurotechnology Academic and Research Staff Assoc. / National Institute of Health / National Science Foundation / /

Person

Stephanie Norton / Chris Rohde / Bryan Koo / Matthew Angel / Carlos Pardo-Martin / Mehmet Fatih Yanik / Christopher Rohde / Cody Gilleland / Joseph Steinmeyer / Steven Wasserman / Tsung-Yao Chang / Naiyan Chen / Martin et.al / Stephen J. Haggarty / Zachary Wissner-Gross / Luigi Warren / Zach Wissner-Gross / Cody L. Gilleland / David Ku Audrey Horst / Christopher B. Rohde / Mark Scott / Chrysanthi Samara / /

Position

multifocal confocal head / Director / /

PublishedMedium

PLoS ONE / Nature Protocols / /

Technology

Neuroscience / laser / lasers / siRNA / high-throughput high-content technologies / high-throughput screening / neurosurgery / dye-filled microfluidic chip / stem cells / microfluidics / step-by-step protocol / microfluidic technologies / detailed protocol / achieved using a femtosecond laser / /

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