GSEM-Based Highly Sensitive Airflow Sensor

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Researchers develop highly sensitive, flexible and adaptive airflow sensors inspired by thin-membrane in bat’s wings.

Airflow sensors rely on mechanical deformation, and they have been applicable in a wide range of applications due to their sensitivity. However, fabricating highly sensitive and self-adaptive airflow sensors via facile and controllable methods remains a challenge.

Prof. Chen Tao’s team at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS) developed a flexible and self-adaptive airflow sensor enabled by bioinspired thin-membrane. Their work has been published in the journal Advanced Functional Materials

The researchers made graphene/single-walled nanotubes (SWNTs)-Ecoflex membrane (GSEM) inspired by bat’s wing membrane which is highly sensitive to airflow. The GSEM can be arbitrarily transferred and subsequently adapted to diverse flat/bend and smooth/rough surfaces.

When airflow was applied, the deformation of  SWNTs led to significant variation of contact resistance, enabling GSEM-based airflow sensor with superior properties including the ultralow airflow velocity detection limit (0.0176 m s-1), fast response time (~ 1.04 s) and recovery time (~ 1.28 s).

The researchers also designed an array of airflow sensors to differentiate the magnitude and spatial distribution of the applied airflow stimulus. According to the researchers, the GSEM-based airflow sensor can sensitively capture the flow velocity information to realize real-time manipulation of motion direction.


 

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