Willem Heinrich Schwalb scite author profile

Ultrathin gold nanowires are mechanically flexible yet robust, which are novel building blocks with potential applications in future wearable optoelectronic devices. Here we report an efficient, low-cost fabrication strategy to construct a highly sensitive, flexible pressure sensor by sandwiching ultrathin gold nanowire-impregnated tissue paper between two thin polydimethylsiloxane sheets. The entire device fabrication process is scalable, enabling facile large-area integration and patterning for mapping spatial pressure distribution. Our gold nanowires-based pressure sensors can be operated at a battery voltage of 1.5 V with low energy consumption (o30 mW), and are able to detect pressing forces as low as 13 Pa with fast response time (o17 ms), high sensitivity (41.14 kPa À 1 ) and high stability (450,000 loading-unloading cycles). In addition, our sensor can resolve pressing, bending, torsional forces and acoustic vibrations. The superior sensing properties in conjunction with mechanical flexibility and robustness enabled real-time monitoring of blood pulses as well as detection of small vibration forces from music.

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Evaporative micro-particle self assembly influenced by capillary evacuation

Shao

Efthimiadis

et al. 2012

Journal of Colloid and Interface Science

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A force-sensing surgical tool with a proximally located force/torque sensor

Schwalb

Shirinzadeh

Smith

2016

Int J Med Robotics Comput Assist Surg

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Surface tension drawing of liquid from microplate capillary wells

Schwalb

Lye

et al. 2012

Journal of Colloid and Interface Science

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Compensation and calibration of gravitational forces in a force-feedback enabled surgical robot

Schwalb

Shirinzadeh

Zhong

et al. 2013

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