Journal
SMALL
Volume 19, Issue 5, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202205136
Keywords
flexible; ionic charges; metal nanoparticles; thermistors; ultrahigh sensitivity
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A thermistor made from metal nanoparticles functionalized with charged organic ligands is reported in this study, achieving a β value of 10,000 K. The device maintains its performance when fabricated on a flexible substrate and experiences reversible bending, and demonstrates potential applications in heat transfer and distribution, with performance comparisons to commercial products.
The thermistor, typically made from metallic oxides, is a type of resistor whose electrical resistance is dependent on its temperature. Despite the wide usage, the limitations of ceramic thermistors become increasingly apparent as devices with improved performances are sought and as new applications emerge. Herein, a thermistor that is showed with a beta (B) value of 10 000 K can be made exclusively from metal nanoparticles functionalized with charged organic ligands. This B value is hard to achieve for ceramic devices, which is due to the increase of effective counterion concentration and its mobility upon thermal activation. Importantly, the performance of the nanoparticle thermistor is maintained when it is fabricated on a flexible substrate and experiences reversible bending. Demos of thermistor arrays for heat transfer, distribution, and comparison of their performance with commercial products are also demonstrated. Owing to the low temperature and simple casting process, conformably flexible characteristics, stable solid states, and ultra-high sensitivities, this device is expected to be practically used soon.
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