期刊
IEEE MAGNETICS LETTERS
卷 13, 期 -, 页码 -出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LMAG.2022.3189274
关键词
Temperature measurement; Temperature sensors; Nanoparticles; Gold; Iodine; Extraterrestrial measurements; Heating systems; Magnetochemistry; spin crossover; molecular magnet; thermochromism; microthermometer
This article introduces an optical temperature sensor based on Fe2+ spin-crossover material. By adjusting the operating range and observing the color change, this sensor is suitable for measuring temperature changes in microdevices.
Device miniaturization requires temperature sensors with high resolution and precise calibration for measurements at reduced scale. We developed an optical temperature sensor using Fe2+ spin-crossover (SCO) material that has low and high spin states depending on temperature. We adjusted the operating range of the SCO (295-365 K) with an appropriate concentration of iodine. The color induced by temperature change was observed with a microscope and was converted to the color intensity represented in grayscale. To test the material, we covered the surface of a gold microheater with a layer of Fe(pyrazine)[Pt(CN)(4)I] SCO nanoparticles and compared optically measured temperatures with those from a conventional temperature sensor. We conclude that the thermochromic temperature sensor is suitable for measuring temperature changes in microdevices, even in ambient light.
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