Nanostructured optical fibre sensors for breathing airflow monitoring

Y. Kang; H. Ruan; Y. Wang; F. J. Arregui; I. R. Matias; R. O. Claus

doi:10.1088/0957-0233/17/5/S44

Nanostructured optical fibre sensors for breathing airflow monitoring

Y. Kang^*
, H. Ruan
, Y. Wang
, F. J. Arregui
, I. R. Matias
, R. O. Claus

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

42 Citations (Scopus)

Abstract

A nanostructured optical fibre-based thin film sensor was designed for non-invasive, fast and reliable monitoring of respiratory airflow. Molecular-level self-assembly processing method was used to form multi-layered inorganic nanocluster and polymer thin films on the distal ends of optical fibres to form such sensors. In order to optimize the sensing performance, an analytical model based on the condensation of exhaled water vapour on the coating surface was established for the breathing analysis. By varying thin film chemistry the physically small sensors offer high sensitivity to breathing air in terms of variations in the reflected optical power. Moreover, the sensor performances in comparison with a medical nasal thermistor suggest such a thin film sensor is an excellent device for advanced breathing airflow monitoring.

Original language	English
Pages (from-to)	1207-1210
Number of pages	4
Journal	Measurement Science and Technology
Volume	17
Issue number	5
DOIs	https://doi.org/10.1088/0957-0233/17/5/S44
Publication status	Published - 1 May 2006
Externally published	Yes

Keywords

Breathing airflow
Breathing sensor
Molecular self-assembly
Optical fibre sensor
Thin film

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10.1088/0957-0233/17/5/S44

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title = "Nanostructured optical fibre sensors for breathing airflow monitoring",

abstract = "A nanostructured optical fibre-based thin film sensor was designed for non-invasive, fast and reliable monitoring of respiratory airflow. Molecular-level self-assembly processing method was used to form multi-layered inorganic nanocluster and polymer thin films on the distal ends of optical fibres to form such sensors. In order to optimize the sensing performance, an analytical model based on the condensation of exhaled water vapour on the coating surface was established for the breathing analysis. By varying thin film chemistry the physically small sensors offer high sensitivity to breathing air in terms of variations in the reflected optical power. Moreover, the sensor performances in comparison with a medical nasal thermistor suggest such a thin film sensor is an excellent device for advanced breathing airflow monitoring.",

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AU - Kang, Y.

AU - Ruan, H.

AU - Wang, Y.

AU - Arregui, F. J.

AU - Matias, I. R.

AU - Claus, R. O.

PY - 2006/5/1

Y1 - 2006/5/1

N2 - A nanostructured optical fibre-based thin film sensor was designed for non-invasive, fast and reliable monitoring of respiratory airflow. Molecular-level self-assembly processing method was used to form multi-layered inorganic nanocluster and polymer thin films on the distal ends of optical fibres to form such sensors. In order to optimize the sensing performance, an analytical model based on the condensation of exhaled water vapour on the coating surface was established for the breathing analysis. By varying thin film chemistry the physically small sensors offer high sensitivity to breathing air in terms of variations in the reflected optical power. Moreover, the sensor performances in comparison with a medical nasal thermistor suggest such a thin film sensor is an excellent device for advanced breathing airflow monitoring.

AB - A nanostructured optical fibre-based thin film sensor was designed for non-invasive, fast and reliable monitoring of respiratory airflow. Molecular-level self-assembly processing method was used to form multi-layered inorganic nanocluster and polymer thin films on the distal ends of optical fibres to form such sensors. In order to optimize the sensing performance, an analytical model based on the condensation of exhaled water vapour on the coating surface was established for the breathing analysis. By varying thin film chemistry the physically small sensors offer high sensitivity to breathing air in terms of variations in the reflected optical power. Moreover, the sensor performances in comparison with a medical nasal thermistor suggest such a thin film sensor is an excellent device for advanced breathing airflow monitoring.

KW - Breathing airflow

KW - Breathing sensor

KW - Molecular self-assembly

KW - Optical fibre sensor

KW - Thin film

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ER -

Nanostructured optical fibre sensors for breathing airflow monitoring

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