High-throughput single-microparticle imaging flow analyzer.
about
Optical data compression in time stretch imagingAdvances in high-throughput single-cell microtechnologiesSingle-cell RNA-seq: advances and future challengesMechanical slowing-down of cytoplasmic diffusion allows in vivo counting of proteins in individual cells.Deep Learning in Label-free Cell ClassificationHigh-Throughput Accurate Single-Cell Screening of Euglena gracilis with Fluorescence-Assisted Optofluidic Time-Stretch MicroscopyFlow Cytometry: Impact on Early Drug DiscoveryThe intersection of flow cytometry with microfluidics and microfabricationHigh-throughput nonlinear optical microscopy.Advances in microfluidic cell separation and manipulation.Three dimensional microfluidics with embedded microball lenses for parallel and high throughput multicolor fluorescence detection.FluidicsPhysical principles for scalable neural recording.Heterogeneous red blood cell adhesion and deformability in sickle cell disease.Imaging Cytometry of Human Leukocytes with Third Harmonic Generation Microscopy.An automated high-throughput counting method for screening circulating tumor cells in peripheral bloodAutomated cell viability assessment using a microfluidics based portable imaging flow analyzerThree-dimensional DNA image cytometry by optical projection tomographic microscopy for early cancer diagnosisImaging Cells in Flow Cytometer Using Spatial-Temporal TransformationInertial focusing of ellipsoidal Euglena gracilis cells in a stepped microchannel.Ultrafast time-stretch imaging at 932 nm through a new highly-dispersive fiber.Label-free fingerprinting of tumor cells in bulk flow using inline digital holographic microscopy.Detection and Clinical Significance of Circulating Tumor Cells in Colorectal Cancer--20 Years of Progress.Large population cell characterization using quantitative phase cytometer.Per-Pixel Coded Exposure for High-Speed and High-Resolution Imaging Using a Digital Micromirror Device CameraNew generation of ensemble-decision aliquot ranking based on simplified microfluidic components for large-capacity trapping of circulating tumor cells.Asymmetric-detection time-stretch optical microscopy (ATOM) for ultrafast high-contrast cellular imaging in flow.Recent advances in microfluidic techniques for single-cell biophysical characterization.New methods for quantifying and visualizing information from images of cells: An overview.High-throughput, multiparameter analysis of single cells.Inertial microfluidic physics.Fundamentals and applications of inertial microfluidics: a review.Microfluidic Imaging Flow Cytometry by Asymmetric-detection Time-stretch Optical Microscopy (ATOM).Optofluidic time-stretch imaging - an emerging tool for high-throughput imaging flow cytometry.Simultaneous and selective isolation of multiple subpopulations of rare cells from peripheral blood using ensemble-decision aliquot ranking (eDAR).Review: imaging technologies for flow cytometry.An intelligent digital microfluidic system with fuzzy-enhanced feedback for multi-droplet manipulation.Ultrafast Microfluidic Cellular Imaging by Optical Time-Stretch.Design of Warped Stretch Transform.Time-stretch microscopy on a DVD for high-throughput imaging cell-based assay
P2860
Q21131777-297CD4FE-EC66-4247-9D38-EDDDC358ED25Q26996412-42C2A89F-3621-4C2C-ACCC-BF4D7C8066C7Q27023759-9A504A29-71FF-4750-86EE-FBED52F0FD04Q27316297-F6126A44-946E-41D9-B43C-B42C10061D5FQ27347513-4416317A-EC0F-466D-A416-18EA562C4E46Q28595635-622CABAE-6D86-493B-BD66-1EA690ADAE48Q30380311-328B34B1-CE3D-4CCA-BB36-57AD36059AF2Q30416353-9726F40B-0F71-4AC3-9DB7-169AA7872A4AQ30422777-AE0AC737-EFD4-49F0-B202-04C8807DE2F4Q30426979-450FFE6F-E8EC-4B07-8182-52DC6BED6997Q30432656-1E52EE6A-B133-4D3E-8C7B-A22CDC8A910EQ30435600-5C6EDF51-EBDA-4247-B245-FE6344E3601CQ30447716-C7061464-911F-416F-B02F-BE989793A75DQ30601237-CDA9D6EF-801C-4F9C-8B60-67B30B0E481EQ30828629-187C29BA-D939-4968-B62A-CA5D1A93EA5EQ34578347-37CB6752-444A-4B10-8FDE-4A2971371A31Q35561574-1F4493E1-B83D-40FC-87B8-2F6F404F9F4EQ35686828-EDEA1D50-1995-4480-A56D-5B9E6DED0CDDQ35964458-855B72F8-FEA7-49E7-AC1F-81F2F1C083FFQ36170128-A9F9364F-49D1-4D89-B821-4868BB2D56FFQ36233216-74D54309-ADEF-478D-BEBB-88D74D9607C0Q36300256-EBD6CBF0-3D3C-4B8F-A4EE-2A6DCA37F923Q36322381-25AB799A-C8DA-4104-901E-E107292987E4Q36356440-7D0BFFFB-2A6D-4E6F-A494-7EA3F0DC27BEQ36745539-206A6F1F-F8F0-4DC1-91F2-737A5AB192F4Q37341244-0CCBD3F2-0A08-446D-A73F-0A15C28ECC33Q37466983-61B9BDC8-5874-4F32-8D22-55FDB6ADBC2DQ38107405-8E346848-D8A7-4DBF-A3E4-784DAF4A20D8Q38151114-1B7C5424-17F8-4C6C-A5FB-B20D10EB3EFAQ38167618-C9A96EDA-A612-43ED-8E1E-2BC73ED9EDA4Q38219051-CEA7311D-82F5-4958-94DB-CC7E7EA98E88Q38638604-46E0F74F-1A2D-47C7-98B2-F3C98588D22DQ38675677-AB0CDFF9-2ECA-4766-84E2-607EAE62974CQ38813657-93F68EE7-3A77-4B0F-BC62-AC7A72979FAFQ38854697-42E4C6C8-CECD-4236-BA3C-FCDB3B8AC710Q39004359-9A1EBAE3-7C67-4313-A13E-5CC6BC015A4EQ39504791-7CC1B483-093E-4757-AE98-8991A29AF09CQ39558236-D7008EAC-2DE0-493F-90DF-324C2005968DQ40280166-780A78EF-29EA-4AD0-9DEB-42CD281B3E3AQ40449554-3562CF04-1CAE-4EB8-A265-315AAA8616CD
P2860
High-throughput single-microparticle imaging flow analyzer.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
High-throughput single-microparticle imaging flow analyzer.
@ast
High-throughput single-microparticle imaging flow analyzer.
@en
type
label
High-throughput single-microparticle imaging flow analyzer.
@ast
High-throughput single-microparticle imaging flow analyzer.
@en
prefLabel
High-throughput single-microparticle imaging flow analyzer.
@ast
High-throughput single-microparticle imaging flow analyzer.
@en
P2093
P2860
P356
P1476
High-throughput single-microparticle imaging flow analyzer.
@en
P2093
Ali M Fard
Bahram Jalali
Cejo K Lonappan
Coleman Murray
Daniel R Gossett
Dino Di Carlo
Elodie Sollier
Jagannath Sadasivam
P2860
P304
11630-11635
P356
10.1073/PNAS.1204718109
P407
P577
2012-07-02T00:00:00Z