Summary
IMPETUS will combine paper, printing and microchip technologies to realise a pilot line capable of manufacturing fully integrated paper-based electrochemical biosensors that directly transfer the measured data to the user’s smartphone. These biosensors will be designed as self-powered disposable test strips that combine the simplicity of lateral flow tests with quantitative readout, which is enabled by the implemented electrochemical detection method. As an application example, we will fulfil the consumer need for fast point-of-care discrimination between bacterial and viral infections.
In particular, IMPETUS will combine screen-, flexo- and inkjet-printing in a seamless roll-to-roll pilot line compatible to high-throughput fabrication. Here, the paper is employed as substrate for the printed circuits and a microchip, but also as active component of the printed battery as well as of the biosensor. This we will achieve by developing new technologies for paper manufacturing, coating and surface modification, and the respective processing will work hand in hand with the ink development (cellulose-based inks for fabricating the printed battery as well as bio-inks for surface functionalization and reagent deposition). A highly integrated and energy-efficient silicon microchip will be developed that enables electrochemical data acquisition, storage and contactless NFC transmission, and the microchip will be mounted onto the paper substrate by an inline placement process.
In summary, the IMPETUS pilot line will pave the way towards the real world application of paper-based quantitative electrochemical diagnostic test strips, thereby clearly advancing the current state-of-the-art, which up to now has mostly focussed on individual fabrication processes and device concepts. The IMPETUS pilot line is conceived in such a way that during the project, all printing and assembly processes will be implemented and validated.
In particular, IMPETUS will combine screen-, flexo- and inkjet-printing in a seamless roll-to-roll pilot line compatible to high-throughput fabrication. Here, the paper is employed as substrate for the printed circuits and a microchip, but also as active component of the printed battery as well as of the biosensor. This we will achieve by developing new technologies for paper manufacturing, coating and surface modification, and the respective processing will work hand in hand with the ink development (cellulose-based inks for fabricating the printed battery as well as bio-inks for surface functionalization and reagent deposition). A highly integrated and energy-efficient silicon microchip will be developed that enables electrochemical data acquisition, storage and contactless NFC transmission, and the microchip will be mounted onto the paper substrate by an inline placement process.
In summary, the IMPETUS pilot line will pave the way towards the real world application of paper-based quantitative electrochemical diagnostic test strips, thereby clearly advancing the current state-of-the-art, which up to now has mostly focussed on individual fabrication processes and device concepts. The IMPETUS pilot line is conceived in such a way that during the project, all printing and assembly processes will be implemented and validated.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/761167 |
| Start date: | 01-01-2018 |
| End date: | 31-10-2022 |
| Total budget - Public funding: | 6 396 305,00 Euro - 6 396 305,00 Euro |
Cordis data
Original description
IMPETUS will combine paper, printing and microchip technologies to realise a pilot line capable of manufacturing fully integrated paper-based electrochemical biosensors that directly transfer the measured data to the user’s smartphone. These biosensors will be designed as self-powered disposable test strips that combine the simplicity of lateral flow tests with quantitative readout, which is enabled by the implemented electrochemical detection method. As an application example, we will fulfil the consumer need for fast point-of-care discrimination between bacterial and viral infections.In particular, IMPETUS will combine screen-, flexo- and inkjet-printing in a seamless roll-to-roll pilot line compatible to high-throughput fabrication. Here, the paper is employed as substrate for the printed circuits and a microchip, but also as active component of the printed battery as well as of the biosensor. This we will achieve by developing new technologies for paper manufacturing, coating and surface modification, and the respective processing will work hand in hand with the ink development (cellulose-based inks for fabricating the printed battery as well as bio-inks for surface functionalization and reagent deposition). A highly integrated and energy-efficient silicon microchip will be developed that enables electrochemical data acquisition, storage and contactless NFC transmission, and the microchip will be mounted onto the paper substrate by an inline placement process.
In summary, the IMPETUS pilot line will pave the way towards the real world application of paper-based quantitative electrochemical diagnostic test strips, thereby clearly advancing the current state-of-the-art, which up to now has mostly focussed on individual fabrication processes and device concepts. The IMPETUS pilot line is conceived in such a way that during the project, all printing and assembly processes will be implemented and validated.
Status
CLOSEDCall topic
PILOTS-05-2017Update Date
26-10-2022
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Organisations
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| AIT AUSTRIAN INSTITUTE OF TECHNOLOGY GMBH (AIT Austrian Institute of Technology GmbH) (Coördinator)
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| DPI HOLDING GMBH
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| EPI GMBH
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| FELIX SCHOELLER HOLDING GMBH & CO KG
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| GWENT ELECTRONIC MATERIALS LIMITED
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| INFINEON TECHNOLOGIES AUSTRIA AG (IFAT)
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| KBPRINTCOM.AT DRUCK + KOMMUNIKATION GMBH
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| MAURER ENGINEERING UG (HAFTUNGSBESCHRANKT)
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| MAURER SERVICES GMBH
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| MELECS EWS GMBH
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| PAPIERTECHNISCHE STIFTUNG
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| PRO-ACTIVE
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| R-BIOPHARM AG
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| RICOH UK PRODUCTS LIMITED
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| SARALON