TY - JOUR
T1 - Biomimetic ultraflexible piezoresistive flow sensor based on graphene nanosheets and PVA hydrogel
AU - Abolpour Moshizi, Sajad
AU - Moradi, Hamed
AU - Wu, Shuying
AU - Jun Han, Zhao
AU - Razmjou, Amir
AU - Asadnia, Mohsen
PY - 2022/1
Y1 - 2022/1
N2 - Flow sensors play a critical role in monitoring flow parameters, including rate, velocity, direction, and rotation frequency. In this paper, inspired by biological hair cells in the human vestibular system, an innovative flow sensor is developed based on polyvinyl alcohol (PVA) hydrogel nanocomposites with a maze‐like network of vertically grown graphene nanosheets (VGNs). The VGNs/PVA hydrogel absorbs a copious amount of water when immersed in water, making the sensor highly sensitive to tiny stimuli underwater. The sensor demonstrates a high sensitivity (5.755 mV (mm s−1)−1) and extremely low velocity detection (0.022 mm s−1). It also reveals outstanding performance in detecting low‐frequency oscillatory flows down to 0.1 Hz, which make it suitable for many biomedical applications. As one of the potential applications of the sensor, it exhibits excellent performance in mimicking various physiological …
AB - Flow sensors play a critical role in monitoring flow parameters, including rate, velocity, direction, and rotation frequency. In this paper, inspired by biological hair cells in the human vestibular system, an innovative flow sensor is developed based on polyvinyl alcohol (PVA) hydrogel nanocomposites with a maze‐like network of vertically grown graphene nanosheets (VGNs). The VGNs/PVA hydrogel absorbs a copious amount of water when immersed in water, making the sensor highly sensitive to tiny stimuli underwater. The sensor demonstrates a high sensitivity (5.755 mV (mm s−1)−1) and extremely low velocity detection (0.022 mm s−1). It also reveals outstanding performance in detecting low‐frequency oscillatory flows down to 0.1 Hz, which make it suitable for many biomedical applications. As one of the potential applications of the sensor, it exhibits excellent performance in mimicking various physiological …
KW - artificial vestibular system
KW - biomimetics
KW - piezoresistive flow sensor,
KW - polymer nanocomposites
KW - vertical graphene nanosheets
UR - http://www.scopus.com/inward/record.url?scp=85114878277&partnerID=8YFLogxK
U2 - 10.1002/admt.202100783
DO - 10.1002/admt.202100783
M3 - Article
SN - 2365-709X
VL - 7
JO - Advanced Materials Technologies
JF - Advanced Materials Technologies
IS - 1
M1 - 2100783
ER -