Nagih M. Shaalan scite author profile

Extremely elastic and sensitive strain gauge sensors are highly demanded to keep track of strains in flexible electronics, skin deformation, and human movement. This report discusses a new approach to fabricate a stretchable, electrically conductive and sensitive strain gauge sensor which uses a polymeric nanofibrous composite of thermoplastic polyurethane (TPU) elastomer and conductive poly (3,4-ethylene dioxythiophene) poly(styrene sulfonate) (PEDOT: PSS) polymer as its basis. The nanofibrous composite was prepared using wet electrospinning technique. The designed TPU/PEDOT: PSS membrane loaded on a silicon rubber (SR) substrate holds an electrical resistance of 3 KΩ and a stable gauge factor of 20 up to 40% strains at room temperature. A single Wheatstone bridge was implemented to calibrate a micro-patterned strain sensor grid for voltage output versus an applied bending moment/force. The obtained results inferred that the fabricated sensor could be used to sense rapid and minute deformation actions in a wide range of engineering applications.

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Preparation of tungsten oxide nanowires and their application to NO2 sensing

Meng

Shaalan

Yamazaki

et al. 2012

Sensors and Actuators B: Chemical

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Preparation of quantum size of tin oxide: Structural and physical characterization

Shaalan

Hamad

Abdel-Latief

et al. 2016

Progress in Natural Science: Materials International

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Nagih M. Shaalan

Influence of morphology and structure geometry on NO2 gas-sensing characteristics of SnO2 nanostructures synthesized via a thermal evaporation method

Micropatterned flexible strain gauge sensor based on wet electrospun polyurethane/PEDOT: PSS nanofibers

Preparation of tungsten oxide nanowires and their application to NO2 sensing

Preparation of quantum size of tin oxide: Structural and physical characterization

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