PIX4LIFE SIGNED
Silicon Nitride Photonic Integrated Circuit Pilot line for Life Science Applications in the Visible Range
Total Cost €
0EC-Contrib. €
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Explore the words cloud of the PIX4LIFE project. It provides you a very rough idea of what is the project "PIX4LIFE" about.
Project "PIX4LIFE" data sheet
The following table provides information about the project.
| Coordinator |
INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM
Organization address contact info |
| Coordinator Country | Belgium [BE] |
| Project website | http://www.pix4life.eu |
| Total cost | 10˙264˙999 € |
| EC max contribution | 8˙557˙337 € (83%) |
| Programme |
1. H2020-EU.2.1.1. (INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)) |
| Code Call | H2020-ICT-2015 |
| Funding Scheme | IA |
| Starting year | 2016 |
| Duration (year-month-day) | from 2016-01-01 to 2020-06-30 |
Partnership
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Project objective
Photonics is essential in today’s life science technology. PIX4life will mature a state of the art silicon nitride (SiN) photonics pilot line for life science applications in the visible range and pave the way to make it accessible as an enabler for product development by a broad range of industrial customers. We aim at 1) establishing a validated CMOS compatible SiN technology platform in the visible range for complex densely integrated photonics integrated circuits (PICs), 2) developing a supply chain to integrate mature semiconductor laser sources and CMOS detector arrays with the SiN PICs on the basis of technologies that are scalable to high volume, 3) establishing appropriate design kits and tools, 4) demonstrating the performance of the pilot line for well-chosen life science applications in the domain of vital sensing, multispectral sources for super-resolution microscopy, cytometry and 3D tissue imaging, 5) setting up the logistics for multi-project-wafer (MPW) access to the pilot line. Integrated photonics has demonstrated that optical functions can be realized in a more compact, robust and cost-effective way by integrating functionalities on a single chip. At present industrialization is limited to telecom applications at infrared wavelengths. The field of life sciences is heavily dependent on bulky and expensive optical systems and would benefit enormously from low cost photonic implementations. However this field requires a visible light PIC-technology. Proof of concept demonstrations are abundant, but pilot line and manufacturing capacity is limited, inhibiting industrial take up. PIX4life will drive the future European RTD in visible photonic applications for life sciences by bridging technological research (via participation of 2 academic and 2 research institutes) towards industrial development (via participation of a foundry, two large companies and 9 fabless SME’s, either technology suppliers or life science end users).
Deliverables
| Training 2 report | Documents, reports | 2020-02-07 10:15:22 |
| Training 1 report | Documents, reports | 2020-02-07 10:15:22 |
| Dissemination activities report - Year 2 | Documents, reports | 2020-02-07 10:15:22 |
| Training 3 report | Documents, reports | 2020-02-07 10:15:22 |
| Open access tools and methodology | Documents, reports | 2020-02-07 10:15:21 |
| Dissemination activities report - Year 1 | Documents, reports | 2020-02-07 10:15:21 |
Take a look to the deliverables list in detail: detailed list of PIX4LIFE deliverables.
Publications
| year | authors and title | journal | last update |
|---|---|---|---|
| 2016 |
Barbara Gefvert PIX4life targets biophotonics with visible-range PICs, development capacity build published pages: , ISSN: , DOI: |
BioOptics world | 2020-02-07 |
| 2017 |
Thomas Klos, Jeremy Witzens, Sebastián Romero GarcÃa, Douwe Geuzebroek, Joost van Kerkhof, Edwin Klein, Martin Büscher, Jürgen Krieg, Patrick Leisching Photonic-integrated circuits for multi-color laser engines in flow cytometry published pages: , ISSN: , DOI: |
Proc. Of SPIE Photonics West 2017 | 2020-02-07 |
| 2017 |
Abdul Rahim, Eva Ryckeboer, Ananth Subramanian, Stephane Clemmen, bart kuyken, Ashim Dhakal, Ali Raza, Artur Hermans, Muhammed Muneeb, Soren Dhoore, Yanlu Li, Utsav Dave, Peter Bienstman, Nicolas LeThomas, Gunther Roelkens, Dries Van Thourhout, Xavier Rottenberg, Philippe Helin, Simone Severi, Roel Baets Expanding the Silicon Photonics Portfolio with Silicon Nitride Photonic Integrated Circuits published pages: 1-1, ISSN: 0733-8724, DOI: 10.1109/JLT.2016.2617624 |
Journal of Lightwave Technology | 2020-02-07 |
| 2017 |
Emanuel P. Haglund, Sulakshna Kumari, Johan S. Gustavsson, Erik Haglund, Gunther Roelkens, Roel G. Baets, and Anders Larsson Hybrid vertical-cavity laser integration on silicon published pages: , ISSN: , DOI: |
Proc. Of SPIE Photonics West 2017 | 2020-02-07 |
| 2017 |
Emanuel Haglund, Sulakshna Kumari, Erik Haglund, Johan Gustavsson, Roel Baets, Gunther Roelkens, Anders Larsson Silicon-Integrated Hybrid-Cavity 850-nm VCSELs by Adhesive Bonding: Impact of Bonding Interface Thickness on Laser Performance published pages: 1-1, ISSN: 1077-260X, DOI: 10.1109/JSTQE.2016.2633823 |
IEEE Journal of Selected Topics in Quantum Electronics | 2020-02-07 |
| 2016 |
Emanuel P. Haglund, Sulakshna Kumari, Erik Haglund, Johan S. Gustavsson, Roel G. Baets, Gunther Roelkens, and Anders Larsson Impact of Bonding Interface Thickness on the Performance of Silicon-Integrated Hybrid-Cavity VCSELs published pages: , ISSN: , DOI: |
Proc. Of ISLC 2016 | 2020-02-07 |
| 2016 |
Thomas Klos, Sina Steup, Jeremy Witzens, Sebastián Romero GarcÃa, Douwe Geuzebroek, Joost van Kerkhof, Patrick Leisching Photonic integrated circuits for multi-color laser engines published pages: , ISSN: , DOI: |
Proc. Of microoptics 2016 | 2020-02-07 |
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The information about "PIX4LIFE" are provided by the European Opendata Portal: CORDIS opendata.
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