| Literature DB >> 26035628 |
Andreas Pfenning1, Fabian Hartmann1, Mariama Rebello Sousa Dias2, Leonardo Kleber Castelano2, Christoph Süßmeier1, Fabian Langer1, Sven Höfling1,3, Martin Kamp1, Gilmar Eugenio Marques2, Lukas Worschech1, Victor Lopez-Richard2.
Abstract
Sensor miniaturization together with broadening temperature sensing range are fundamental challenges in nanothermometry. By exploiting a large temperature-dependent screening effect observed in a resonant tunneling diode in sequence with a GaInNAs/GaAs quantum well, we present a low dimensional, wide range, and high sensitive nanothermometer. This sensor shows a large threshold voltage shift of the bistable switching of more than 4.5 V for a temperature raise from 4.5 to 295 K, with a linear voltage-temperature response of 19.2 mV K(-1), and a temperature uncertainty in the millikelvin (mK) range. Also, when we monitor the electroluminescence emission spectrum, an optical read-out control of the thermometer is provided. The combination of electrical and optical read-outs together with the sensor architecture excel the device as a thermometer with the capability of noninvasive temperature sensing, high local resolution, and sensitivity.Keywords: resonant tunneling diode; thermometer
Year: 2015 PMID: 26035628 DOI: 10.1021/acsnano.5b01831
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881