In this work, we propose a multi-parametric sensor able to measure both temperature and radiation intensity, suitable to increase the level of integration and miniaturization in Lab-on-Chip applications. The device is based on amorphous silicon p-doped/intrinsic/n-doped thin film junction. The device is first characterized as radiation and temperature sensor independently. We found a maximum value of responsivity equal to 350 mA/W at 510 nm and temperature sensitivity equal to 3.2 mV/K. We then investigated the effects of the temperature variation on light intensity measurement and of the light intensity variation on the accuracy of the temperature measurement. We found that the temperature variation induces an error lower than 0.55 pW/K in the light intensity measurement at 550 nm when the diode is biased in short circuit condition, while an error below 1 K/µW results in the temperature measurement when a forward bias current higher than 25 µA/cm2 is applied.

Amorphous silicon p-i-n structure acting as light and temperature sensor / DE CESARE, Giampiero; Nascetti, Augusto; Caputo, Domenico. - In: SENSORS. - ISSN 1424-8220. - STAMPA. - 15:6(2015), pp. 12260-12272. [10.3390/s150612260]

Amorphous silicon p-i-n structure acting as light and temperature sensor

DE CESARE, Giampiero;NASCETTI, Augusto;CAPUTO, Domenico
2015

Abstract

In this work, we propose a multi-parametric sensor able to measure both temperature and radiation intensity, suitable to increase the level of integration and miniaturization in Lab-on-Chip applications. The device is based on amorphous silicon p-doped/intrinsic/n-doped thin film junction. The device is first characterized as radiation and temperature sensor independently. We found a maximum value of responsivity equal to 350 mA/W at 510 nm and temperature sensitivity equal to 3.2 mV/K. We then investigated the effects of the temperature variation on light intensity measurement and of the light intensity variation on the accuracy of the temperature measurement. We found that the temperature variation induces an error lower than 0.55 pW/K in the light intensity measurement at 550 nm when the diode is biased in short circuit condition, while an error below 1 K/µW results in the temperature measurement when a forward bias current higher than 25 µA/cm2 is applied.
2015
Lab-on-Chip; amorphous silicon devices; photosensors; temperature sensors
01 Pubblicazione su rivista::01a Articolo in rivista
Amorphous silicon p-i-n structure acting as light and temperature sensor / DE CESARE, Giampiero; Nascetti, Augusto; Caputo, Domenico. - In: SENSORS. - ISSN 1424-8220. - STAMPA. - 15:6(2015), pp. 12260-12272. [10.3390/s150612260]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/788659
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