Shangquan Zhang scite author profile

To obtain ideal sensing materials with nearly zero temperature coefficient resistance (TCR) for self-temperature-compensated pressure sensors, we proposed an Incipient Network Conformal Growth (INCG) technology to prepare hybrid and elastic porous materials: the nanoparticles (NPs) are first dispersed in solvent to form an incipient network, another component is then introduced to coat the incipient network conformally via wet chemical route. The conformal coatings not only endow NPs with high stability but also offer them additional structural elasticity, meeting requirements for future generations of portable, compressive and flexible devices. The resultant polypyrrole/silver coaxial nanowire hybrid aero-sponges prepared via INCG technology have been processed into a piezoresistive sensor with highly sensing stability (low TCR 0.86 × 10(-3)/°C), sensitivity (0.33 kPa(-1)), short response time (1 ms), minimum detectable pressure (4.93 Pa) after suffering repeated stimuli, temperature change and electric heating. Moreover, a stress-triggered Joule heater can be also fabricated mainly by the PPy-Ag NW hybrid aero-sponges with nearly zero temperature coefficient.

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Fabrication and characterization of an anode-supported hollow fiber SOFC

Yang

Zhang

et al. 2009

Journal of Power Sources

111

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High performance proton-conducting solid oxide fuel cells with a stable Sm0.5Sr0.5Co3−δ–Ce0.8Sm0.2O2−δ composite cathode

Sun

Yan

Lin

et al. 2010

Journal of Power Sources

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Indium as an ideal functional dopant for a proton-conducting solid oxide fuel cell

Zhang

et al. 2009

International Journal of Hydrogen Energy

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Shangquan Zhang

Polypyrrole/Silver Coaxial Nanowire Aero-Sponges for Temperature-Independent Stress Sensing and Stress-Triggered Joule Heating

Fabrication and characterization of an anode-supported hollow fiber SOFC

High performance proton-conducting solid oxide fuel cells with a stable Sm0.5Sr0.5Co3−δ–Ce0.8Sm0.2O2−δ composite cathode

Indium as an ideal functional dopant for a proton-conducting solid oxide fuel cell

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