Toner and paper-based fabrication techniques for microfluidic applications.
about
Simple, distance-based measurement for paper analytical devicesProgress in the development of paper-based diagnostics for low-resource point-of-care settingsA Review on Microfluidic Paper-Based Analytical Devices for Glucose Detection.Rational selection of substrates to improve color intensity and uniformity on microfluidic paper-based analytical devices.Paper strip-embedded graphene quantum dots: a screening device with a smartphone readoutPrint-to-Pattern Dry Film Photoresist Lithography.Fast and versatile fabrication of PMMA microchip electrophoretic devices by laser engraving.Disposable polyester-toner electrophoresis microchips for DNA analysis.Laser-printing of toner-based 96-microzone plates for immunoassays.Paper and toner three-dimensional fluidic devices: programming fluid flow to improve point-of-care diagnostics.Characterization of microchip electrophoresis devices fabricated by direct-printing process with colored toner.Unconventional low-cost fabrication and patterning techniques for point of care diagnostics.Shrink-film microfluidic education modules: Complete devices within minutes.Photopatterned materials in bioanalytical microfluidic technologyDNA detection using origami paper analytical devices.Determination of nitrite in saliva using microfluidic paper-based analytical devices.Fabrication and Characterization of All-Polystyrene Microfluidic Devices with Integrated Electrodes and Tubing.Applications of electrowetting-based digital microfluidics in clinical diagnostics.Recent advances in miniaturisation--the role of microchip electrophoresis in clinical analysis.A perspective on paper-based microfluidics: Current status and future trends.Recent advances in low-cost microfluidic platforms for diagnostic applications.Lab-on-paper-based devices using chemiluminescence and electrogenerated chemiluminescence detection.Pen microfluidics: rapid desktop manufacturing of sealed thermoplastic microchannels.Paper-based inkjet-printed microfluidic analytical devices.Deposition, patterning, and utility of conductive materials for the rapid prototyping of chemical and bioanalytical devices.High-Throughput Electrochemical Microfluidic Immunoarray for Multiplexed Detection of Cancer Biomarker Proteins.A microfluidic chip using phenol formaldehyde resin for uniform-sized polycaprolactone and chitosan microparticle generation.Rapid evaporation-driven chemical pre-concentration and separation on paper.Paper-based microfluidic devices by asymmetric calendaring.Inkjet print microchannels based on a liquid template.Mechanisms of red blood cells agglutination in antibody-treated paper.3D Printed e-Tongue.Automated, Miniaturized, and Integrated Quality Control-on-Chip (QC-on-a-Chip) for Cell-Based Cancer Therapy Applications
P2860
Q23911802-834B686A-7A18-480F-A698-2E3B6410A1F7Q26998818-85E106B3-B051-4372-B65E-AFC648A85CDAQ28079966-CEB51E3D-8A42-44E0-8903-D0D8E7A17D73Q30579064-AB121177-2448-4ECF-ABCA-B36E895FEE66Q33454121-5CAD88B1-AF9F-4703-B2FA-C7BB88020478Q34025727-93A63939-D773-45A9-B1C6-6BE0F8E59791Q34221278-7436E484-D6A1-4891-B914-D5E21F82A8A3Q34251423-71BE3FF4-9C6F-40DB-A186-0534D84B2728Q34514837-A72A5FBC-E1BA-4142-B2FC-9B07E1F9D3F5Q34530765-8613F101-46A9-4AFA-9CD6-29652A1D926EQ34742749-2AB90870-D96F-4011-97E2-24AA4DBE98A6Q34751412-C390B252-C0A6-4F03-B5EA-E021E0E55855Q35132645-24F4F86E-33E7-4C38-92C6-7E73DDF2F68BQ35165553-95124CFB-FA8D-49A7-AFB0-AD6FFC1A9638Q37367240-57E10182-6597-4A2E-8B34-0672999B671EQ37597401-AFF1A5CA-8262-439E-8DF6-FA7B4FAD598EQ37634245-B25F9BBD-F211-4EDF-9C4C-2645A9BD28EFQ37872299-1AFCC286-3D13-471A-BADB-D950D0BAEACFQ37962412-3C6B5B39-C70D-4470-BFC8-C6C0946DEC44Q38015855-A71149F1-7CE5-4B56-8CF8-42EB984631FFQ38199465-15AE153E-373D-4170-9C6C-6F23A7400083Q38202551-FE6B3866-078A-4C2F-84C4-692F5C2F6DEEQ38410878-1F61533C-8471-4CEF-97E2-F63DF166668BQ38416524-9C2C0E0B-D014-4C78-9BE4-C843BA50E4A6Q38784288-99051990-FA65-469A-976F-40EA75E3DAFFQ41412212-DE21993E-4F16-40F8-8931-50B56A8484EFQ44206613-2C72C32E-5F51-4F6D-97C7-27541F3D1EC2Q47701896-011CCF70-937B-4772-957D-95C4C2F5A11BQ47807192-253F2DF5-11AE-4E3B-8AA0-BB2A21E405E8Q50439416-2C5C881F-71AB-4C60-8739-9BB7E456008FQ50514789-D7318C3D-340A-45FF-B294-033F506BB3CDQ55104557-2DA134EB-A933-4A8B-BF20-179919736DD6Q57901322-3B81DB14-46B3-4E19-A1F8-C0CA077E4A1A
P2860
Toner and paper-based fabrication techniques for microfluidic applications.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on August 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Toner and paper-based fabrication techniques for microfluidic applications.
@en
Toner and paper-based fabrication techniques for microfluidic applications.
@nl
type
label
Toner and paper-based fabrication techniques for microfluidic applications.
@en
Toner and paper-based fabrication techniques for microfluidic applications.
@nl
prefLabel
Toner and paper-based fabrication techniques for microfluidic applications.
@en
Toner and paper-based fabrication techniques for microfluidic applications.
@nl
P50
P356
P1433
P1476
Toner and paper-based fabrication techniques for microfluidic applications.
@en
P2093
Dosil Pereira de Jesus
Wendell Karlos Tomazelli Coltro
P304
P356
10.1002/ELPS.201000063
P577
2010-08-01T00:00:00Z