3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications

3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications

Additive manufacturing (AM) is ideal for building adaptable, structurally complex, three-dimensional, monolithic lab-on-chip (LOC) devices from only a computer design file. Consequently, it has potential to advance micro- to milllifluidic LOC design, prototyping, and production and further its appli...

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Bibliographic Details
Main Authors: Megan Carve, Donald Wlodkowic
Format: Article
Language:English
Published: MDPI AG 2018-02-01
Series:Micromachines
Subjects:
lab-on-a-chip
bioassay
toxicity
additive manufacturing
polymers
3D printing
Online Access:http://www.mdpi.com/2072-666X/9/2/91
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spelling doaj-f8d3f49ebe194a1c8094950e2b12df6c2020-11-24T21:36:21ZengMDPI AGMicromachines2072-666X2018-02-01929110.3390/mi9020091mi90200913D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological ApplicationsMegan Carve0Donald Wlodkowic1School of Science, RMIT University, Melbourne, VIC 3083, AustraliaSchool of Science, RMIT University, Melbourne, VIC 3083, AustraliaAdditive manufacturing (AM) is ideal for building adaptable, structurally complex, three-dimensional, monolithic lab-on-chip (LOC) devices from only a computer design file. Consequently, it has potential to advance micro- to milllifluidic LOC design, prototyping, and production and further its application in areas of biomedical and biological research. However, its application in these areas has been hampered due to material biocompatibility concerns. In this review, we summarise commonly used AM techniques: vat polymerisation and material jetting. We discuss factors influencing material biocompatibility as well as methods to mitigate material toxicity and thus promote its application in these research fields.http://www.mdpi.com/2072-666X/9/2/91lab-on-a-chipbioassaytoxicityadditive manufacturingpolymers3D printing
collection DOAJ
language English
format Article
sources DOAJ
author Megan Carve
Donald Wlodkowic
spellingShingle Megan Carve
Donald Wlodkowic
3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
Micromachines
lab-on-a-chip
bioassay
toxicity
additive manufacturing
polymers
3D printing
author_facet Megan Carve
Donald Wlodkowic
author_sort Megan Carve
title 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
title_short 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
title_full 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
title_fullStr 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
title_full_unstemmed 3D-Printed Chips: Compatibility of Additive Manufacturing Photopolymeric Substrata with Biological Applications
title_sort 3d-printed chips: compatibility of additive manufacturing photopolymeric substrata with biological applications
publisher MDPI AG
series Micromachines
issn 2072-666X
publishDate 2018-02-01
description Additive manufacturing (AM) is ideal for building adaptable, structurally complex, three-dimensional, monolithic lab-on-chip (LOC) devices from only a computer design file. Consequently, it has potential to advance micro- to milllifluidic LOC design, prototyping, and production and further its application in areas of biomedical and biological research. However, its application in these areas has been hampered due to material biocompatibility concerns. In this review, we summarise commonly used AM techniques: vat polymerisation and material jetting. We discuss factors influencing material biocompatibility as well as methods to mitigate material toxicity and thus promote its application in these research fields.
topic lab-on-a-chip
bioassay
toxicity
additive manufacturing
polymers
3D printing
url http://www.mdpi.com/2072-666X/9/2/91
work_keys_str_mv AT megancarve 3dprintedchipscompatibilityofadditivemanufacturingphotopolymericsubstratawithbiologicalapplications
AT donaldwlodkowic 3dprintedchipscompatibilityofadditivemanufacturingphotopolymericsubstratawithbiologicalapplications
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