Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2018 |
| Outros Autores: | , , , |
| Tipo de documento: | Artigo de conferência |
| Título da fonte: | Repositório Institucional do IPEN |
| Texto Completo: | http://repositorio.ipen.br/handle/123456789/28993 |
Resumo: | Dimensional characterization of microfluidic circuits were performed using three-dimensional models constructed from OCT images of such circuits. Were fabricated microchannels on the same BK7 glass plate, under different laser ablation conditions and substrate displacement velocity in relation to laser beam. Were used the following combination of energy, from 30 ??J to 60 ??J and velocity from 588 mm/min to 1176 mm/min, at 1 kHz laser repetition rate and 40 fs of pulse duration (FWHM). For OCT imaging we used an OCP930SR (Thorlabs System Inc) with 930 nm central wavelength, 6 ??m of lateral and axial resolution, and image of 500 x 512 pixel corresponding to 2.0 mm x 1.6 mm of lateral and axial scans respectively at 8 frames per second. We also characterized devices like, micropumps, microvalves and microreactors. It was possible register the micropumps and valves in action in real time. Using the OCT images analyses was possible to select the best combination of laser pulse energy and substrate velocity. All the devices were made in raster protocol, where laser beam pass through the same path in a controlled number of times, and with each iteration more material is removed and deeper the channels remain. We found a deformation at the edge of fabricated structures, due to velocity reduction of substrate in relation to laser beam, which causes more laser pulses superposition in these regions, and more material is ablated. The technique was thus evaluated as a potential tool to aid in the inspection of microchannels. |
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GRAY, BONNIE L.BECKER, HOLGERPRETTO, LUCAS R. deSAMAD, RICARDO E.ROSSI, WAGNER deFREITAS, ANDERSON Z. deMICROFLUIDICS, BIOMEMS, AND MEDICAL MICROSYSTEMS, 16th2018-07-31T10:39:24Z2018-07-31T10:39:24ZJanuary 27 - February 01, 2018http://repositorio.ipen.br/handle/123456789/2899310.1117/12.2289937Dimensional characterization of microfluidic circuits were performed using three-dimensional models constructed from OCT images of such circuits. Were fabricated microchannels on the same BK7 glass plate, under different laser ablation conditions and substrate displacement velocity in relation to laser beam. Were used the following combination of energy, from 30 ??J to 60 ??J and velocity from 588 mm/min to 1176 mm/min, at 1 kHz laser repetition rate and 40 fs of pulse duration (FWHM). For OCT imaging we used an OCP930SR (Thorlabs System Inc) with 930 nm central wavelength, 6 ??m of lateral and axial resolution, and image of 500 x 512 pixel corresponding to 2.0 mm x 1.6 mm of lateral and axial scans respectively at 8 frames per second. We also characterized devices like, micropumps, microvalves and microreactors. It was possible register the micropumps and valves in action in real time. Using the OCT images analyses was possible to select the best combination of laser pulse energy and substrate velocity. All the devices were made in raster protocol, where laser beam pass through the same path in a controlled number of times, and with each iteration more material is removed and deeper the channels remain. We found a deformation at the edge of fabricated structures, due to velocity reduction of substrate in relation to laser beam, which causes more laser pulses superposition in these regions, and more material is ablated. The technique was thus evaluated as a potential tool to aid in the inspection of microchannels.Submitted by Marco Antonio Oliveira da Silva (maosilva@ipen.br) on 2018-07-31T10:39:24Z No. of bitstreams: 1 24779.pdf: 874031 bytes, checksum: aff984ce0d14e0eb9cbc8c44c9a6a636 (MD5)Made available in DSpace on 2018-07-31T10:39:24Z (GMT). No. of bitstreams: 1 24779.pdf: 874031 bytes, checksum: aff984ce0d14e0eb9cbc8c44c9a6a636 (MD5)Funda????o de Amparo ?? Pesquisa do Estado de S??o Paulo (FAPESP)Conselho Nacional de Desenvolvimento Cient??fico e Tecnol??gico (CNPq)FAPESP: 13/26113-6CNPq: 449440/2014-1104911A-1 - 104911A-12Society of Photo-optical Instrumentation EngineersSPIE Proceedings Series, 10491tomographyoptical systemsoptical modesscanning electron microscopyelectron scanningcomputer codesfluidic control deviceslasersOptical coherence tomography characterization of femtosecond laser manufactured microfluidic circuitsinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/conferenceObjectSPIEIBellingham, WA, USASan Francisco, California, USAinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional do IPENinstname:Instituto de Pesquisas Energéticas e Nucleares (IPEN)instacron:IPEN247792018PRETTO, LUCAS R. deSAMAD, RICARDO E.ROSSI, WAGNER deFREITAS, ANDERSON Z. de18-07Proceedings1126890973880PRETTO, LUCAS R. DE:11268:920:SSAMAD, RICARDO E.:909:930:NROSSI, WAGNER DE:73:920:NFREITAS, ANDERSON Z. 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| dc.title.pt_BR.fl_str_mv |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| title |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| spellingShingle |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits PRETTO, LUCAS R. de tomography optical systems optical modes scanning electron microscopy electron scanning computer codes fluidic control devices lasers |
| title_short |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| title_full |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| title_fullStr |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| title_full_unstemmed |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| title_sort |
Optical coherence tomography characterization of femtosecond laser manufactured microfluidic circuits |
| author |
PRETTO, LUCAS R. de |
| author_facet |
PRETTO, LUCAS R. de SAMAD, RICARDO E. ROSSI, WAGNER de FREITAS, ANDERSON Z. de MICROFLUIDICS, BIOMEMS, AND MEDICAL MICROSYSTEMS, 16th |
| author_role |
author |
| author2 |
SAMAD, RICARDO E. ROSSI, WAGNER de FREITAS, ANDERSON Z. de MICROFLUIDICS, BIOMEMS, AND MEDICAL MICROSYSTEMS, 16th |
| author2_role |
author author author author |
| dc.contributor.editor.none.fl_str_mv |
GRAY, BONNIE L. BECKER, HOLGER |
| dc.contributor.author.fl_str_mv |
PRETTO, LUCAS R. de SAMAD, RICARDO E. ROSSI, WAGNER de FREITAS, ANDERSON Z. de MICROFLUIDICS, BIOMEMS, AND MEDICAL MICROSYSTEMS, 16th |
| dc.subject.por.fl_str_mv |
tomography optical systems optical modes scanning electron microscopy electron scanning computer codes fluidic control devices lasers |
| topic |
tomography optical systems optical modes scanning electron microscopy electron scanning computer codes fluidic control devices lasers |
| description |
Dimensional characterization of microfluidic circuits were performed using three-dimensional models constructed from OCT images of such circuits. Were fabricated microchannels on the same BK7 glass plate, under different laser ablation conditions and substrate displacement velocity in relation to laser beam. Were used the following combination of energy, from 30 ??J to 60 ??J and velocity from 588 mm/min to 1176 mm/min, at 1 kHz laser repetition rate and 40 fs of pulse duration (FWHM). For OCT imaging we used an OCP930SR (Thorlabs System Inc) with 930 nm central wavelength, 6 ??m of lateral and axial resolution, and image of 500 x 512 pixel corresponding to 2.0 mm x 1.6 mm of lateral and axial scans respectively at 8 frames per second. We also characterized devices like, micropumps, microvalves and microreactors. It was possible register the micropumps and valves in action in real time. Using the OCT images analyses was possible to select the best combination of laser pulse energy and substrate velocity. All the devices were made in raster protocol, where laser beam pass through the same path in a controlled number of times, and with each iteration more material is removed and deeper the channels remain. We found a deformation at the edge of fabricated structures, due to velocity reduction of substrate in relation to laser beam, which causes more laser pulses superposition in these regions, and more material is ablated. The technique was thus evaluated as a potential tool to aid in the inspection of microchannels. |
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2018 |
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January 27 - February 01, 2018 |
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2018-07-31T10:39:24Z |
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2018-07-31T10:39:24Z |
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