Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications

Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications

A procedure for fabrication of photomasks on photographic films with minimum feature achievable of about 20 μm, which are particularly suitable for the fast prototyping of microfluidic devices, has been improved. We used a commercial photographic enlarger in reverse mode obtaining 10:1 reduction fac...

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Bibliographic Details
Main Authors: Mario Medugno, Luca De Stefano, Alessandro Caliò, Ivo Rendina, Emanuele Orabona
Format: Article
Language:English
Published: MDPI AG 2013-05-01
Series:Micromachines
Subjects:
microfluidic
optical reduction
photomasks
Online Access:http://www.mdpi.com/2072-666X/4/2/206
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spelling doaj-aee054e129e1420ea5c286399726886a2020-11-25T00:24:57ZengMDPI AGMicromachines2072-666X2013-05-014220621410.3390/mi4020206Photomasks Fabrication Based on Optical Reduction for Microfluidic ApplicationsMario MedugnoLuca De StefanoAlessandro CaliòIvo RendinaEmanuele OrabonaA procedure for fabrication of photomasks on photographic films with minimum feature achievable of about 20 μm, which are particularly suitable for the fast prototyping of microfluidic devices, has been improved. We used a commercial photographic enlarger in reverse mode obtaining 10:1 reduction factor with error less than 1%. Masks have been characterized by optical transmission measurement and contact profilometry: the exposed region completely absorbs light in the wavelength region explored, while the non-exposed region is transparent from 350 nm on; the average film thickness is of 410 nm and its roughness is about 120 nm. A PDMS microfluidic device has been realized and tested in order to prove the effectiveness of designed photomasks used with the common UV light box.http://www.mdpi.com/2072-666X/4/2/206microfluidicoptical reductionphotomasks
collection DOAJ
language English
format Article
sources DOAJ
author Mario Medugno
Luca De Stefano
Alessandro Caliò
Ivo Rendina
Emanuele Orabona
spellingShingle Mario Medugno
Luca De Stefano
Alessandro Caliò
Ivo Rendina
Emanuele Orabona
Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
Micromachines
microfluidic
optical reduction
photomasks
author_facet Mario Medugno
Luca De Stefano
Alessandro Caliò
Ivo Rendina
Emanuele Orabona
author_sort Mario Medugno
title Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
title_short Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
title_full Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
title_fullStr Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
title_full_unstemmed Photomasks Fabrication Based on Optical Reduction for Microfluidic Applications
title_sort photomasks fabrication based on optical reduction for microfluidic applications
publisher MDPI AG
series Micromachines
issn 2072-666X
publishDate 2013-05-01
description A procedure for fabrication of photomasks on photographic films with minimum feature achievable of about 20 μm, which are particularly suitable for the fast prototyping of microfluidic devices, has been improved. We used a commercial photographic enlarger in reverse mode obtaining 10:1 reduction factor with error less than 1%. Masks have been characterized by optical transmission measurement and contact profilometry: the exposed region completely absorbs light in the wavelength region explored, while the non-exposed region is transparent from 350 nm on; the average film thickness is of 410 nm and its roughness is about 120 nm. A PDMS microfluidic device has been realized and tested in order to prove the effectiveness of designed photomasks used with the common UV light box.
topic microfluidic
optical reduction
photomasks
url http://www.mdpi.com/2072-666X/4/2/206
work_keys_str_mv AT mariomedugno photomasksfabricationbasedonopticalreductionformicrofluidicapplications
AT lucadestefano photomasksfabricationbasedonopticalreductionformicrofluidicapplications
AT alessandrocalio photomasksfabricationbasedonopticalreductionformicrofluidicapplications
AT ivorendina photomasksfabricationbasedonopticalreductionformicrofluidicapplications
AT emanueleorabona photomasksfabricationbasedonopticalreductionformicrofluidicapplications
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