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.
Integrated Optical Amplifier–Photodetector on a Wearable Nanocellulose Substrate / Suárez, Isaac; Hassanabadi, Ehsan; Maulu, Alberto; Carlino, Niccolò; Maestri, Cecilia Ada; Latifi, Masoud; Bettotti, Paolo; Mora-Seró, Iván; Martínez-Pastor, Juan P.. - In: ADVANCED OPTICAL MATERIALS. - ISSN 2195-1071. - 6:12(2018), pp. 1800201.1-1800201.8. [10.1002/adom.201800201]
Integrated Optical Amplifier–Photodetector on a Wearable Nanocellulose Substrate
Maestri, Cecilia Ada;Bettotti, Paolo;Martínez-Pastor, Juan P.
2018-01-01
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 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.| File | Dimensione | Formato | |
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