A self-powered, one-step chip for rapid, quantitative and multiplexed detection of proteins from pinpricks of whole blood
about
Smartphone-enabled optofluidic exosome diagnostic for concussion recoveryPhaseguide-assisted blood separation microfluidic device for point-of-care applications.Laser micromachined hybrid open/paper microfluidic chips.Point of Care Technologies for HIVMicro total analysis systems for cell biology and biochemical assaysToward rapid, high-sensitivity, volume-constrained biomarker quantification and validation using backscattering interferometryMultiplexed volumetric bar-chart chip for point-of-care diagnosticsCapillarics: pre-programmed, self-powered microfluidic circuits built from capillary elements.Protein signaling networks from single cell fluctuations and information theory profiling.Microfluidic electrochemical immunoarray for ultrasensitive detection of two cancer biomarker proteins in serum.A robotics platform for automated batch fabrication of high density, microfluidics-based DNA microarrays, with applications to single cell, multiplex assays of secreted proteinsA versatile snap chip for high-density sub-nanoliter chip-to-chip reagent transferDevelopment and validation of a microfluidic immunoassay capable of multiplexing parallel samples in microliter volumesDepletion of cells and abundant proteins from biological samples by enhanced dielectrophoresis.Emerging microfluidic tools for functional cellular immunophenotyping: a new potential paradigm for immune status characterization.A clinical microchip for evaluation of single immune cells reveals high functional heterogeneity in phenotypically similar T cells.On-line protein capture on magnetic beads for ultrasensitive microfluidic immunoassays of cancer biomarkers.Revolutionizing medicine in the 21st century through systems approachesMiniaturized immunoassays: moving beyond the microplate.'Fab-chips': a versatile, fabric-based platform for low-cost, rapid and multiplexed diagnostics.Manipulation of Superparamagnetic Beads on Patterned Exchange-Bias Layer Systems for Biosensing Applications.Current and Potential Developments of Cortisol Aptasensing towards Point-of-Care Diagnostics (POTC).Self-contained microfluidic systems: a review.Competitive volumetric bar-chart chip with real-time internal control for point-of-care diagnosticsnanoLAB: an ultraportable, handheld diagnostic laboratory for global health.Paper pump for passive and programmable transport.Integrated separation of blood plasma from whole blood for microfluidic paper-based analytical devices.A micro blood sampling system for catheterized neonates and pediatrics in intensive care unit.Electrohydrodynamic-Induced SERS Immunoassay for Extensive Multiplexed Biomarker Sensing.A paper based self-pumping and self-breathing fuel cell using pencil stroked graphite electrodes.An innovative sample-to-answer polymer lab-on-a-chip with on-chip reservoirs for the POCT of thyroid stimulating hormone (TSH).Modular pumps as programmable hydraulic batteries for microfluidic devicesIntegrated Lateral Flow Device for Flow Control with Blood Separation and Biosensing
P2860
Q27318650-05299D0D-4F21-4AA5-B8DC-185F2E5C8BC9Q30393297-0988AED6-8DF4-41A5-B15C-5AD776C0D242Q30423547-E53D81D4-07B1-4B7C-A717-AABCC151D5BFQ30442547-FC41751D-DD63-4A93-8824-6B490C085BAEQ30459045-53F8F6DF-0B4E-40F8-8EE1-F8518E6F3825Q34434036-B96AAB62-3749-4AEF-8212-07DD4D6F43B8Q34700249-1AEA2E6C-C0BA-4CE6-8820-640FFADABB7FQ34974611-E6BD0A75-4C58-443D-A345-95D4C7116059Q34978109-A3AD6C65-70C7-4C6C-AA1E-D0CF1DF5A223Q35061782-21973F77-8D5D-44E3-A98B-6C257E9E9A87Q35299531-9EBA637E-F082-4DF6-94D0-22C18B95EF95Q35684431-98C1C4CA-C21A-4939-B8D7-0831DEED9FDAQ35866238-EC5065FB-3020-41B7-A58C-5949BDF736A5Q36612430-C3610C12-A2A5-4272-8011-AF068753134BQ36782417-1D8178E5-68B6-4BFA-A999-D0F2C83B8101Q36926465-D5830436-8921-4972-9D86-719ADD245C35Q37374604-79D8726D-867D-41A3-B65B-23F013DC8D39Q37655727-8E9B4118-C72F-4E15-8125-11D74996DE9CQ37976441-38EA7F51-6890-4718-A645-E1F68D6780F7Q38422347-9EC3660C-2552-4092-92B4-AA857575BEEBQ38637322-B7DDDE58-F2AB-4CE8-9DB6-465E0705E464Q38771196-2E63FFFE-7960-47F4-9755-AA5BF35DCDF7Q38840949-3A6D6507-0525-488B-8983-8165CBFF45EFQ38902218-3F3C0608-6281-4245-B267-D94B30A2FEDFQ39790196-79B0FDDE-FF05-4859-A587-496CD40E76FBQ41994148-4422CE2D-8F1E-41CA-B681-1EBDC8E4C58DQ48597960-97E86165-F083-40ED-B7CC-9842898521B7Q50500509-5E43FD2D-C0D7-4B72-8851-8BE4E7E6AEEFQ51242934-46293515-42FE-4ADD-AA46-0F2468EFB54EQ51519086-F1EB932A-6276-4C00-8CEE-B2FDEBA62D15Q51527532-FA27A023-9A26-42F0-A0E9-ABCDD0A9705EQ57427049-DF3F642B-5AF9-4379-8A5F-DEE3EA335549Q57827468-F6BF7A87-D31A-4F2A-8D69-732F2FB6C20A
P2860
A self-powered, one-step chip for rapid, quantitative and multiplexed detection of proteins from pinpricks of whole blood
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
A self-powered, one-step chip ...... from pinpricks of whole blood
@en
type
label
A self-powered, one-step chip ...... from pinpricks of whole blood
@en
prefLabel
A self-powered, one-step chip ...... from pinpricks of whole blood
@en
P2093
P2860
P356
P1433
P1476
A self-powered, one-step chip ...... from pinpricks of whole blood
@en
P2093
Habib Ahmad
James Heath
Ophir Vermesh
Udi Vermesh
P2860
P304
P356
10.1039/C0LC00132E
P577
2010-10-06T00:00:00Z