Literature DB >> 15100886

Polyimide-based microfluidic devices.

S Metz1, R Holzer, P Renaud.   

Abstract

This paper describes the development of polyimide-based microfluidic devices. A layer transfer and lamination technique is used to fabricate flexible microfluidic channels in various shapes and with a wide range of dimensions. High bond strengths can be achieved by cure cycle adaptation and surface treatment of the polyimide layers prior to bonding. The polyimide microchannels can be combined with metallization layers to fabricate electrodes inside and outside channels. The resulting devices can be used for flexible fluidic and electrical connectors, implantable fluid delivery devices, microelectrodes with embedded fluidic channels, chip-based flow cytometry and for a great variety of other applications in medical, chemical or biological research.

Entities:  

Year:  2001        PMID: 15100886     DOI: 10.1039/b103896f

Source DB:  PubMed          Journal:  Lab Chip        ISSN: 1473-0189            Impact factor:   6.799


  14 in total

1.  Separation of tumor cells with dielectrophoresis-based microfluidic chip.

Authors:  Mohammed Alshareef; Nicholas Metrakos; Eva Juarez Perez; Fadi Azer; Fang Yang; Xiaoming Yang; Guiren Wang
Journal:  Biomicrofluidics       Date:  2013-01-09       Impact factor: 2.800

2.  A simple method of fabricating mask-free microfluidic devices for biological analysis.

Authors:  Xin Yi; Rimantas Kodzius; Xiuqing Gong; Kang Xiao; Weijia Wen
Journal:  Biomicrofluidics       Date:  2010-09-07       Impact factor: 2.800

3.  Polyimide/SU-8 catheter-tip MEMS gauge pressure sensor.

Authors:  Willyan Hasenkamp; David Forchelet; Kristopher Pataky; Jimmy Villard; Harald Van Lintel; Arnaud Bertsch; Qing Wang; Philippe Renaud
Journal:  Biomed Microdevices       Date:  2012-10       Impact factor: 2.838

4.  Fabrication Methods and Performance of Low-Permeability Microfluidic Components for a Miniaturized Wearable Drug Delivery System.

Authors:  Mark J Mescher; Erin E Leary Swan; Jason Fiering; Maria E Holmboe; William F Sewell; Sharon G Kujawa; Michael J McKenna; Jeffrey T Borenstein
Journal:  J Microelectromech Syst       Date:  2009-06-01       Impact factor: 2.417

5.  Miniaturized, Battery-Free Optofluidic Systems with Potential for Wireless Pharmacology and Optogenetics.

Authors:  Kyung Nim Noh; Sung Il Park; Raza Qazi; Zhanan Zou; Aaron D Mickle; Jose G Grajales-Reyes; Kyung-In Jang; Robert W Gereau; Jianliang Xiao; John A Rogers; Jae-Woong Jeong
Journal:  Small       Date:  2017-12-07       Impact factor: 13.281

6.  Polydimethylsiloxane-based conducting composites and their applications in microfluidic chip fabrication.

Authors:  Xiuqing Gong; Weijia Wen
Journal:  Biomicrofluidics       Date:  2009-03-23       Impact factor: 2.800

7.  Thiolene and SIFEL-based Microfluidic Platforms for Liquid-Liquid Extraction.

Authors:  Sachit Goyal; Amit V Desai; Robert W Lewis; David R Ranganathan; Hairong Li; Dexing Zeng; David E Reichert; Paul J A Kenis
Journal:  Sens Actuators B Chem       Date:  2014-01-01       Impact factor: 7.460

8.  Photosensitive-polyimide based method for fabricating various neural electrode architectures.

Authors:  Yasuhiro X Kato; Shigeto Furukawa; Kazuyuki Samejima; Naoyuki Hironaka; Makio Kashino
Journal:  Front Neuroeng       Date:  2012-06-18

9.  From understanding cellular function to novel drug discovery: the role of planar patch-clamp array chip technology.

Authors:  Christophe Py; Marzia Martina; Gerardo A Diaz-Quijada; Collin C Luk; Dolores Martinez; Mike W Denhoff; Anne Charrier; Tanya Comas; Robert Monette; Anthony Krantis; Naweed I Syed; Geoffrey A R Mealing
Journal:  Front Pharmacol       Date:  2011-10-03       Impact factor: 5.810

Review 10.  Microtechnologies to fuel neurobiological research with nanometer precision.

Authors:  Cecilia A Brunello; Ville Jokinen; Prasanna Sakha; Hideyuki Terazono; Fumimasa Nomura; Tomoyuki Kaneko; Sari E Lauri; Sami Franssila; Claudio Rivera; Kenji Yasuda; Henri J Huttunen
Journal:  J Nanobiotechnology       Date:  2013-04-10       Impact factor: 10.435
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