M. Placidi scite author profile

The present work outlines the fabrication and testing of a novel skin temperature sensor based on exfoliated\ud and undamaged multi-walled carbon nanotubes (MWCNTs) dispersed in a poly(vinylbenzyl chloride)\ud derivative with triethylamine (PVBC_Et3N). The dispersions were prepared by sonicating MWCNT/\ud PVBC_Et3N mixtures in dimethylformamide for 5 min and the quantification of the MWCNTs dispersed\ud was evaluated by UV–vis spectroscopy investigations and thermogravimetric analyses.\ud The investigations demonstrated the realization of MWCNT/PVBC_Et3N sensors with a resistance sensitivity\ud to temperature close to 0.004 K1, an absolute value that is comparable to the highest values\ud found in metals. The temperature dependence of the resistance was also found very reproducible in\ud the range 20–40 C, thus suggesting the possibility of using the MWCNT/PVBC_Et3N system for the fabrication\ud of small wearable temperature sensors for the monitoring of chronic wounds

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The Cedar (Cerenkov Differential Counters with Achromatic Ring Focus) Project

Bovet

Maleyran

Placci

et al. 1978

IEEE Trans. Nucl. Sci.

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M. Placidi

Accurate determination of the LEP beam energy by resonant depolarization

Measurement of LEP beam energy by resonant spin depolarization

First results on proton extraction from the CERN-SPS with a bent crystal

A new polystyrene-based ionomer/MWCNT nanocomposite for wearable skin temperature sensors

The Cedar (Cerenkov Differential Counters with Achromatic Ring Focus) Project

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