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AC Electrokinetics of Physiological Fluids for Biomedical Applications.Acousto-plasmofluidics: Acoustic modulation of surface plasmon resonance in microfluidic systems.Advances and challenges in biosensor-based diagnosis of infectious diseases.Electrokinetic focusing and separation of mammalian cells in conductive biological fluids.Advances in microfluidic materials, functions, integration, and applications.An AC electrokinetics facilitated biosensor cassette for rapid pathogen identificationNew and developing diagnostic technologies for urinary tract infections.Single cell antimicrobial susceptibility testing by confined microchannels and electrokinetic loading.Elevating sampling.Clinical validation of integrated nucleic acid and protein detection on an electrochemical biosensor array for urinary tract infection diagnosis.Electrokinetic stringency control in self-assembled monolayer-based biosensors for multiplex urinary tract infection diagnosis.Development of chip-compatible sample preparation for diagnosis of infectious diseases.Point-of-care nucleic acid detection using nanotechnology.Modeling the lung: Design and development of tissue engineered macro- and micro-physiologic lung models for research use.Centrifugal microfluidic platforms: advanced unit operations and applications.A Universal Electrode Approach for Automated Electrochemical Molecular Analyses.Microarray dot electrodes utilizing dielectrophoresis for cell characterization.Integrated DNA and RNA extraction and purification on an automated microfluidic cassette from bacterial and viral pathogens causing community-acquired lower respiratory tract infections.Lab on a stick: multi-analyte cellular assays in a microfluidic dipstick.Rigorous buoyancy driven bubble mixing for centrifugal microfluidics.
P2860
Q30368764-7D441101-4B1E-4B30-BD6F-023DA6FB90FBQ30402237-584C2EE8-8017-4E66-A508-27B7B2953F0AQ30434510-1883B2EC-D044-4ED0-92EF-FBF7F489F4DDQ30435192-76A4461B-16BF-4F0E-9A33-7C2C6FCBE2F4Q30440267-B10FDF0E-B17B-439D-8676-B4F171AC765FQ30541385-4EBC1A98-8FB8-4D99-9129-B56802F99735Q33806235-551E8751-8658-47DF-9ECB-E1960AD18503Q33915975-EBF342AC-D7FC-4901-BE91-DC567F0FAA2CQ33983800-B264DD7E-251D-4CA2-88D2-DE5EB7A389C5Q34069616-EDBB3B67-3453-4DCB-9FD5-4E7F42DDDBD2Q37381420-D1DFF1A0-37B8-4327-B8A0-C53909A14A78Q37988578-1DE44CCE-7282-4560-9628-AB690F2B9152Q38140675-08CF05E0-0B11-4215-93D0-3DE82F4531C6Q38223001-5B811247-9B73-41FA-83CB-9AB05AB36B01Q38513052-76EA53AC-021F-404F-9F7E-09F5F809B344Q39806542-A81B382F-CE2F-4D13-A2BF-2A55F6DA6BEDQ41948994-ADF6FAA5-065E-4784-8876-1E1EB55FB8D1Q42224703-3A5F01EE-7B26-45BD-A924-879EAD082D16Q50617465-BE83641F-7CE7-402A-B38A-033A62F4D903Q51475762-542F8438-44C0-4573-A604-8A2650DF39DC
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 25 May 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
System Integration - A Major Step toward Lab on a Chip.
@en
System Integration - A Major Step toward Lab on a Chip.
@nl
type
label
System Integration - A Major Step toward Lab on a Chip.
@en
System Integration - A Major Step toward Lab on a Chip.
@nl
prefLabel
System Integration - A Major Step toward Lab on a Chip.
@en
System Integration - A Major Step toward Lab on a Chip.
@nl
P2093
P2860
P356
P1476
System Integration - A Major Step toward Lab on a Chip.
@en
P2093
Joseph C Liao
Mandy Ly Sin
Pak Kin Wong
P2860
P2888
P356
10.1186/1754-1611-5-6
P577
2011-05-25T00:00:00Z
P5875
P6179
1011721919