Literature DB >> 22662101

A practical guide for the fabrication of microfluidic devices using glass and silicon.

Ciprian Iliescu, Hayden Taylor, Marioara Avram, Jianmin Miao, Sami Franssila.   

Abstract

This paper describes the main protocols that are used for fabricating microfluidic devices from glass and silicon. Methods for micropatterning glass and silicon are surveyed, and their limitations are discussed. Bonding methods that can be used for joining these materials are summarized and key process parameters are indicated. The paper also outlines techniques for forming electrical connections between microfluidic devices and external circuits. A framework is proposed for the synthesis of a complete glass/silicon device fabrication flow.

Entities:  

Year:  2012        PMID: 22662101      PMCID: PMC3365353          DOI: 10.1063/1.3689939

Source DB:  PubMed          Journal:  Biomicrofluidics        ISSN: 1932-1058            Impact factor:   2.800


  40 in total

1.  A dielectrophoretic chip with a roughened metal surface for on-chip surface-enhanced Raman scattering analysis of bacteria.

Authors:  I-Fang Cheng; Chi-Chang Lin; Dong-Yi Lin; Hsien-Chang Chang
Journal:  Biomicrofluidics       Date:  2010-08-05       Impact factor: 2.800

2.  Performance of SU-8 microchips as separation devices and comparison with glass microchips.

Authors:  Tiina Sikanen; Liisa Heikkilä; Santeri Tuomikoski; Raimo A Ketola; Risto Kostiainen; Sami Franssila; Tapio Kotiaho
Journal:  Anal Chem       Date:  2007-07-17       Impact factor: 6.986

3.  Nanofluidic devices and their applications.

Authors:  Patrick Abgrall; Nam Trung Nguyen
Journal:  Anal Chem       Date:  2008-03-06       Impact factor: 6.986

4.  High-pressure needle interface for thermoplastic microfluidics.

Authors:  C F Chen; J Liu; L P Hromada; C W Tsao; C C Chang; D L DeVoe
Journal:  Lab Chip       Date:  2008-11-19       Impact factor: 6.799

Review 5.  Artificial molecular sieves and filters: a new paradigm for biomolecule separation.

Authors:  Jianping Fu; Pan Mao; Jongyoon Han
Journal:  Trends Biotechnol       Date:  2008-04-20       Impact factor: 19.536

Review 6.  Microfluidic lab-on-a-chip platforms: requirements, characteristics and applications.

Authors:  Daniel Mark; Stefan Haeberle; Günter Roth; Felix von Stetten; Roland Zengerle
Journal:  Chem Soc Rev       Date:  2010-01-25       Impact factor: 54.564

7.  Dielectrophoretic field-flow method for separating particle populations in a chip with asymmetric electrodes.

Authors:  Ciprian Iliescu; Guillaume Tresset; Guolin Xu
Journal:  Biomicrofluidics       Date:  2009-10-21       Impact factor: 2.800

8.  Rapid Prototyping of Microfluidic Systems in Poly(dimethylsiloxane).

Authors:  D C Duffy; J C McDonald; O J Schueller; G M Whitesides
Journal:  Anal Chem       Date:  1998-12-01       Impact factor: 6.986

9.  Beyond PDMS: off-stoichiometry thiol-ene (OSTE) based soft lithography for rapid prototyping of microfluidic devices.

Authors:  Carl Fredrik Carlborg; Tommy Haraldsson; Kim Öberg; Michael Malkoch; Wouter van der Wijngaart
Journal:  Lab Chip       Date:  2011-08-01       Impact factor: 6.799

10.  Catching bird flu in a droplet.

Authors:  Juergen Pipper; Masafumi Inoue; Lisa F-P Ng; Pavel Neuzil; Yi Zhang; Lukas Novak
Journal:  Nat Med       Date:  2007-09-23       Impact factor: 53.440
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  35 in total

1.  Polymeric Microneedle Array Fabrication by Photolithography.

Authors:  Himanshu Kathuria; Jaspreet Singh Kochhar; Michelle Hui Min Fong; Michinao Hashimoto; Ciprian Iliescu; Hanry Yu; Lifeng Kang
Journal:  J Vis Exp       Date:  2015-11-17       Impact factor: 1.355

2.  Label-free isolation of circulating tumor cells in microfluidic devices: Current research and perspectives.

Authors:  Igor Cima; Chay Wen Yee; Florina S Iliescu; Wai Min Phyo; Kiat Hon Lim; Ciprian Iliescu; Min Han Tan
Journal:  Biomicrofluidics       Date:  2013-01-24       Impact factor: 2.800

3.  Coins in microfluidics: From mere scale objects to font of inspiration for microchannel circuits.

Authors:  Gabriele Pitingolo; Valerie Taly; Claudio Nastruzzi
Journal:  Biomicrofluidics       Date:  2019-04-09       Impact factor: 2.800

4.  Microfluidics in structured multimaterial fibers.

Authors:  Rodger Yuan; Jaemyon Lee; Hao-Wei Su; Etgar Levy; Tural Khudiyev; Joel Voldman; Yoel Fink
Journal:  Proc Natl Acad Sci U S A       Date:  2018-10-29       Impact factor: 11.205

Review 5.  Advances in microfluidic materials, functions, integration, and applications.

Authors:  Pamela N Nge; Chad I Rogers; Adam T Woolley
Journal:  Chem Rev       Date:  2013-02-14       Impact factor: 60.622

6.  Native extracellular matrix-derived semipermeable, optically transparent, and inexpensive membrane inserts for microfluidic cell culture.

Authors:  Mark J Mondrinos; Yoon-Suk Yi; Nan-Kun Wu; Xueting Ding; Dongeun Huh
Journal:  Lab Chip       Date:  2017-09-12       Impact factor: 6.799

Review 7.  Microfluidic systems for stem cell-based neural tissue engineering.

Authors:  Mahdi Karimi; Sajad Bahrami; Hamed Mirshekari; Seyed Masoud Moosavi Basri; Amirala Bakhshian Nik; Amir R Aref; Mohsen Akbari; Michael R Hamblin
Journal:  Lab Chip       Date:  2016-07-05       Impact factor: 6.799

8.  Microfluidic flow cytometry: The role of microfabrication methodologies, performance and functional specification.

Authors:  Anil B Shrirao; Zachary Fritz; Eric M Novik; Gabriel M Yarmush; Rene S Schloss; Jeffrey D Zahn; Martin L Yarmush
Journal:  Technology (Singap World Sci)       Date:  2018-03-16

Review 9.  Biological applications of microchip electrophoresis with amperometric detection: in vivo monitoring and cell analysis.

Authors:  Kelci M Schilly; Shamal M Gunawardhana; Manjula B Wijesinghe; Susan M Lunte
Journal:  Anal Bioanal Chem       Date:  2020-04-28       Impact factor: 4.142

10.  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
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