Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration

Thomas, Daniel J.; McCall, Caitlin; Tehrani, Zari; Claypole, Tim C.; Claypole, Timothy

doi:10.1097/POC.0000000000000132

Journal article 4797 views 409 downloads

Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration

Daniel J. Thomas, Caitlin McCall, Zari Tehrani

, Tim C. Claypole, Timothy Claypole

Point of Care: The Journal of Near-Patient Testing & Technology, Volume: 16, Issue: 2, Pages: 97 - 101

Swansea University Authors: Zari Tehrani , Timothy Claypole

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DOI (Published version): 10.1097/POC.0000000000000132

Abstract

In this research, an integrated three-dimensional (3D)–printed laboratory-on-a-chip system was developed based on integrating conventional silicon biosensing systems with silver screen–printed electronics. It was discovered that by integrating 220-μm width microchannels, fabricated using 3D-printed...

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Published in:	Point of Care: The Journal of Near-Patient Testing & Technology
ISSN:	1533-029X
Published:	2017
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa31386

first_indexed	2016-12-08T15:06:18Z
last_indexed	2018-02-09T05:18:14Z
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spelling	2017-09-07T14:38:20.7676146 v2 31386 2016-12-08 Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration fd8e614b01086804c80fbafa6fa6aaf5 0000-0002-5069-7921 Zari Tehrani Zari Tehrani true false 7735385522f1e68a8775b4f709e91d55 Timothy Claypole Timothy Claypole true false 2016-12-08 EAAS In this research, an integrated three-dimensional (3D)–printed laboratory-on-a-chip system was developed based on integrating conventional silicon biosensing systems with silver screen–printed electronics. It was discovered that by integrating 220-μm width microchannels, fabricated using 3D-printed polymers, it would offer a means for the development of a microfluidic device with the further possibility for electrically integrating different elements through depositing screen-printed silver contacts. The objective was to achieve low resistance and high reliability with low cost for manufacturing 3D-printed point-of-care diagnostic devices. Journal Article Point of Care: The Journal of Near-Patient Testing & Technology 16 2 97 101 1533-029X 30 6 2017 2017-06-30 10.1097/POC.0000000000000132 COLLEGE NANME Engineering and Applied Sciences School COLLEGE CODE EAAS Swansea University 2017-09-07T14:38:20.7676146 2016-12-08T10:43:21.2300338 Faculty of Science and Engineering School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering Daniel J. Thomas 1 Caitlin McCall 2 Zari Tehrani 0000-0002-5069-7921 3 Tim C. Claypole 4 Timothy Claypole 5 0031386-06042017092959.pdf thomas2017.pdf 2017-04-06T09:29:59.6200000 Output 1273276 application/pdf Accepted Manuscript true 2018-06-30T00:00:00.0000000 false eng
title	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
spellingShingle	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration Zari Tehrani Timothy Claypole
title_short	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
title_full	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
title_fullStr	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
title_full_unstemmed	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
title_sort	Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration
author_id_str_mv	fd8e614b01086804c80fbafa6fa6aaf5 7735385522f1e68a8775b4f709e91d55
author_id_fullname_str_mv	fd8e614b01086804c80fbafa6fa6aaf5_*_Zari Tehrani 7735385522f1e68a8775b4f709e91d55_*_Timothy Claypole
author	Zari Tehrani Timothy Claypole
author2	Daniel J. Thomas Caitlin McCall Zari Tehrani Tim C. Claypole Timothy Claypole
format	Journal article
container_title	Point of Care: The Journal of Near-Patient Testing & Technology
container_volume	16
container_issue	2
container_start_page	97
publishDate	2017
institution	Swansea University
issn	1533-029X
doi_str_mv	10.1097/POC.0000000000000132
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department_str	School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering
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description	In this research, an integrated three-dimensional (3D)–printed laboratory-on-a-chip system was developed based on integrating conventional silicon biosensing systems with silver screen–printed electronics. It was discovered that by integrating 220-μm width microchannels, fabricated using 3D-printed polymers, it would offer a means for the development of a microfluidic device with the further possibility for electrically integrating different elements through depositing screen-printed silver contacts. The objective was to achieve low resistance and high reliability with low cost for manufacturing 3D-printed point-of-care diagnostic devices.
published_date	2017-06-30T03:59:09Z
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score	11.039009

Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration

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