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The design and manufacturing of a paper-based e.coli biosensor

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dc.contributor.author Bezuidenhout, PH
dc.contributor.author Schoeman, J
dc.contributor.author Joubert, T-H
dc.date.accessioned 2016-07-11T10:33:42Z
dc.date.available 2016-07-11T10:33:42Z
dc.date.issued 2016-01
dc.identifier.citation Bezuidenhout, P.H. Schoeman, J. and Joubert, T-H. 2015. The design and manufacturing of a paper-based e.coli biosensor. In: Dimitrov,D. and Oosthuizen,T. eds. International Conference on Competitive Manufacturing (COMA): COMA'16, 6th international conference,27-29 January 2016, Wallenberg Centre(STIAS) Stellenbosch, South Africa en_US
dc.identifier.isbn 978-0-7972-1602-0
dc.identifier.uri http://hdl.handle.net/10204/8611
dc.description International Conference on Competitive Manufacturing (COMA): COMA'16, 6th international conference Wallenberg Centre(STIAS) Stellenbosch 27th January-29th January 2016. Due to copyright restrictions, the attached PDF file only contains the abstract of the full text item. For access to the full text item, please consult the publisher's website en_US
dc.description.abstract Printed electronics employ additive manufacturing processes and has several application possibilities for bespoke or large area devices on flexible or inexpensive substrates. One of the most compelling applications of this technological advance is point-of-need diagnostics. The intended use of the proposed paper-based E.coli (Escherichia coli) biosensor is low-resourced point-of-need markets and has been aligned with the ASSURED (affordable, sensitive, specific, user friendly, robust and rapid, equipment free and deliverable) guidelines of the World Health Organisation (WHO) for diagnostic tools. The paper-based E.coli biosensor is presented with the main focus being the refinement of the manufacturing process of a printed biosensor. The biosensor consists of interdigitated electrodes designed with a minimum feature size of 50µm, which were inkjet printed onto a paper substrate, using a nanoparticle silver ink. In this paper the design considerations, simulations and manufacturing of the biosensors are described. It is found that there are several manufacturing considerations that play a role, including conversion differences between different software layout formats, the physical printing parameters and ink properties that influence the minimum feature size as well as temperature curing challenges due to different material temperature coefficient expansion (TCE) rates. When considering a digital factory mind-map, this paper-based E.coli biosensor is still in its product development phase. However, by refining the manufacturing processes printed electronics not only allows for rapid-prototyping and effortlessly implementing design changes that accelerate the design process, but will also inherently accelerate large scale manufacturing in the future. en_US
dc.language.iso en en_US
dc.relation.ispartofseries Workflow;15189
dc.subject Printed electronics en_US
dc.subject World Health Organisation en_US
dc.subject E.coli biosensor en_US
dc.subject Temperature coefficient expansion en_US
dc.title The design and manufacturing of a paper-based e.coli biosensor en_US
dc.type Conference Presentation en_US
dc.identifier.apacitation Bezuidenhout, P., Schoeman, J., & Joubert, T. (2016). The design and manufacturing of a paper-based e.coli biosensor. http://hdl.handle.net/10204/8611 en_ZA
dc.identifier.chicagocitation Bezuidenhout, PH, J Schoeman, and T-H Joubert. "The design and manufacturing of a paper-based e.coli biosensor." (2016): http://hdl.handle.net/10204/8611 en_ZA
dc.identifier.vancouvercitation Bezuidenhout P, Schoeman J, Joubert T, The design and manufacturing of a paper-based e.coli biosensor; 2016. http://hdl.handle.net/10204/8611 . en_ZA
dc.identifier.ris TY - Conference Presentation AU - Bezuidenhout, PH AU - Schoeman, J AU - Joubert, T-H AB - Printed electronics employ additive manufacturing processes and has several application possibilities for bespoke or large area devices on flexible or inexpensive substrates. One of the most compelling applications of this technological advance is point-of-need diagnostics. The intended use of the proposed paper-based E.coli (Escherichia coli) biosensor is low-resourced point-of-need markets and has been aligned with the ASSURED (affordable, sensitive, specific, user friendly, robust and rapid, equipment free and deliverable) guidelines of the World Health Organisation (WHO) for diagnostic tools. The paper-based E.coli biosensor is presented with the main focus being the refinement of the manufacturing process of a printed biosensor. The biosensor consists of interdigitated electrodes designed with a minimum feature size of 50µm, which were inkjet printed onto a paper substrate, using a nanoparticle silver ink. In this paper the design considerations, simulations and manufacturing of the biosensors are described. It is found that there are several manufacturing considerations that play a role, including conversion differences between different software layout formats, the physical printing parameters and ink properties that influence the minimum feature size as well as temperature curing challenges due to different material temperature coefficient expansion (TCE) rates. When considering a digital factory mind-map, this paper-based E.coli biosensor is still in its product development phase. However, by refining the manufacturing processes printed electronics not only allows for rapid-prototyping and effortlessly implementing design changes that accelerate the design process, but will also inherently accelerate large scale manufacturing in the future. DA - 2016-01 DB - ResearchSpace DP - CSIR KW - Printed electronics KW - World Health Organisation KW - E.coli biosensor KW - Temperature coefficient expansion LK - https://researchspace.csir.co.za PY - 2016 SM - 978-0-7972-1602-0 T1 - The design and manufacturing of a paper-based e.coli biosensor TI - The design and manufacturing of a paper-based e.coli biosensor UR - http://hdl.handle.net/10204/8611 ER - en_ZA


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