Environment-friendly wearable thermal flow sensors for noninvasive respiratory monitoring

We report on a low-cost, environmentally friendly and wearable thermal flow sensor for non-invasive monitoring of human respiration. The sensor can be manufactured in-house using pencil graphite as a sensing hot film and biodegradable printing paper as a substrate, without using any toxic solvents or cleanroom facilities. The hot film flow sensor offers excellent characteristics such as high sensitivity, high signal-to-noise response to airflow and outstanding long-term stability. We further demonstrate a patch-type wearable sensor for monitoring human respiration. The results indicate that the sensor may be utilized to ...
View more >We report on a low-cost, environmentally friendly and wearable thermal flow sensor for non-invasive monitoring of human respiration. The sensor can be manufactured in-house using pencil graphite as a sensing hot film and biodegradable printing paper as a substrate, without using any toxic solvents or cleanroom facilities. The hot film flow sensor offers excellent characteristics such as high sensitivity, high signal-to-noise response to airflow and outstanding long-term stability. We further demonstrate a patch-type wearable sensor for monitoring human respiration. The results indicate that the sensor may be utilized to medically monitor sleep quality and other personal health concerns.
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Conference Title

30TH IEEE INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS (MEMS 2017)

Publisher URI

http://ieeexplore.ieee.org/abstract/document/7863578/

DOI

https://doi.org/10.1109/MEMSYS.2017.7863578

Subject

Biomedical engineering not elsewhere classified

Publication URI

http://hdl.handle.net/10072/340671

Collection

Conference outputs