Integrated Optical Amplifier–Photodetector on a Wearable Nanocellulose Substrate
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Other documents of the author: Suárez, Isaac; Hassanabadi, Ehsan; Maulu, Alberto; Carlino, Niccolò; Maestri, Cecilia Ada; Latifi, Masoud; Bettotti, Paolo; Mora-Sero, Ivan; Martínez-Pastor, Juan P.
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Show full item recordcomunitat-uji-handle:10234/9
comunitat-uji-handle2:10234/160292
comunitat-uji-handle3:10234/160293
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Title
Integrated Optical Amplifier–Photodetector on a Wearable Nanocellulose SubstrateAuthor (s)
Date
2018Publisher
WileyISSN
2195-1071Bibliographic citation
SUÁREZ, Isaac, et al. Integrated Optical Amplifier–Photodetector on a Wearable Nanocellulose Substrate. Advanced Optical Materials, 2018, 6, 12, 1800201Type
info:eu-repo/semantics/articlePublisher version
https://onlinelibrary.wiley.com/doi/full/10.1002/adom.201800201Version
info:eu-repo/semantics/acceptedVersionSubject
Abstract
Flexible optoelectronics has emerged as an outstanding platform to pave the road toward vanguard technology advancements. As compared to conventional rigid substrates, a flexible technology enables mechanical deformation ... [+]
Flexible optoelectronics has emerged as an outstanding platform to pave the road toward vanguard technology advancements. As compared to conventional rigid substrates, a flexible technology enables mechanical deformation while maintaining stable performance. The advantages include not only the development to novel applications, but also the implementation of a wearable technology directly in contact with a curved surface. Here the monolithic integration of a perovskite‐based optical waveguide amplifier together with a photodetector on a nanocellulose substrate is shown to demonstrate the feasibility of a stretchable signal manipulation and receptor system fabricated on a biodegradable material. An integrated optical amplifier–photodetector is developed in which the photocurrent is exploited that is generated in the organic–inorganic lead halide perovskite under an applied bias. Such photocurrent does not minimally perturb the amplifier operation and is used to monitor the light signal propagating along the waveguide, opening a broad range of applications for example to regulate the operation temperature. [-]
Is part of
Advanced Optical Materials, 2018, 1800201Investigation project
The work was supported by European Research Council (ERC) via Consolidator Grant (724424—No‐LIMIT), by MINECO of Spain (projects MAT2013‐47192‐C3‐1‐R, and TEC2014‐53727‐C2‐1‐R) and by Generalitat Valenciana (Projects PROMETEOII/2014/020 and PROMETEOII/2014/059).Rights
http://rightsstatements.org/vocab/CNE/1.0/
info:eu-repo/semantics/openAccess
info:eu-repo/semantics/openAccess
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