Shoichi Akiyama, Y. T. Cheng, J. Fattaccioli, N. Takama, Peter Löw, C. Bergaud, Beomjoon Kim
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Surface-Temperature Control of Silicon Nanowires in Dry and Liquid Conditions
In this paper we present the results of surface temperature control of silicon nanowires by using fluorescent thermometry at the nanometer scale. Rhodamine B is one of the stable fluorescent molecules, which rely on the characteristic of temperature-dependent change in fluorescent intensity, and it was used for nano-scale surface temperature sensing interface. The resistive heating on Si nanowires was carried out with applying voltage potential of 6 ~ 12 V. Surface-temperature measurement was performed by converting the changes in fluorescent intensity with calibration curve of Rhodamine B. The temperature at the central line along nanowires increasing from 30 degrees to 35~70 degrees was observed.
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