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Sengupta, Debarun
University of Groningen
in Cooperation with on an Cooperation-Score of 37%
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- 2023Fabric-like electrospun PVAc-graphene nanofiber webs as wearable and degradable piezocapacitive sensorscitations
- 2023Fabric-like electrospun PVAc-graphene nanofiber webs as wearable and degradable piezocapacitive sensorscitations
- 2022An Inkjet-Printed Piezoresistive Bidirectional Flow Sensorcitations
- 2022Piezoresistive 3D graphene-PDMS spongy pressure sensors for IoT enabled wearables and smart productscitations
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document
An Inkjet-Printed Piezoresistive Bidirectional Flow Sensor
Abstract
This work reports the fabrication of a titanium carbide nanoparticle-based inkjet printed flexible bidirectional flow sensor. The design of the flow sensor consists of an inkjet printed titanium carbide piezoresistive strain gauge on a polyester cantilever. The sensors demonstrated a normalized flow sensitivity of 1.043/(ms-1) in the velocity range ~ 0.15 – 0.55 m/s (for water flow). The fabrication method reported in this work potentially opens a new direction for fabrication of a class of robust, repeatable, and inexpensive flexible flow sensors.