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Flexible photonic sensors realized using printing technologies

Jeroen Missinne (UGent) , Ahmed Elmogi (UGent) , Marie-Aline Mattelin (UGent) and Geert Van Steenberge (UGent)
(2017) p.1-2
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Abstract
Making sensors flexible and thin, is key to apply them on curved, moving surfaces, e.g. for wearable applications or to embed them in mechanical structures. Photonic sensor systems require the integration of microstructures (e.g. polymer waveguides), nanostructures (e.g. gratings), which can be realized using nanoimprint lithography, but may also need additional active or passive optical components, which can be integrated using laser printing technologies.

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Citation

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Chicago
Missinne, Jeroen, Ahmed Elmogi, Marie-Aline Mattelin, and Geert Van Steenberge. 2017. “Flexible Photonic Sensors Realized Using Printing Technologies.” In , 1–2.
APA
Missinne, J., Elmogi, A., Mattelin, M.-A., & Van Steenberge, G. (2017). Flexible photonic sensors realized using printing technologies (pp. 1–2). Presented at the 7th EOS topical meeting on optical microsystems.
Vancouver
1.
Missinne J, Elmogi A, Mattelin M-A, Van Steenberge G. Flexible photonic sensors realized using printing technologies. 2017. p. 1–2.
MLA
Missinne, Jeroen, Ahmed Elmogi, Marie-Aline Mattelin, et al. “Flexible Photonic Sensors Realized Using Printing Technologies.” 2017. 1–2. Print.
@inproceedings{8540368,
  abstract     = {Making sensors flexible and thin, is key to apply them on curved, moving surfaces, e.g. for wearable applications or to embed them in mechanical structures. Photonic sensor systems require the integration of microstructures (e.g. polymer waveguides), nanostructures (e.g. gratings), which can be realized using nanoimprint lithography, but may also need additional active or passive optical components, which can be integrated using laser printing technologies.},
  author       = {Missinne, Jeroen and Elmogi, Ahmed and Mattelin, Marie-Aline and Van Steenberge, Geert},
  language     = {eng},
  location     = {Capri, Italy},
  pages        = {1--2},
  title        = {Flexible photonic sensors realized using printing technologies},
  year         = {2017},
}