低密度聚乙烯基体热力学特性对石墨纳米板涂层热阻性能的影响

U. Coscia, A. Longo, M. Palomba, A. Sorrentino, G. Barucca, A. Di Bartolomeo, F. Urban, G. Ambrosone, G. Carotenuto
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引用次数: 5

摘要

研究了在低密度聚乙烯(LDPE)衬底上沉积的薄膜的形态、结构和热阻性能,以研究其在柔性电子器件中的可能应用。扫描和透射电子显微镜分析以及x射线衍射测量表明,薄膜由重叠的石墨纳米片(GNP)组成,每个纳米片平均由41层石墨烯层组成。差示扫描量热法和动态-机械-热分析表明,通过将温度变化限制在- 40 ~ 40°C之间,可以避免聚合物衬底的不可逆相变和机械参数的大变化。在这种温度范围内进行的电学测量表明,LDPE衬底上GNP薄膜的电阻随着温度的增加而增加,这与石墨基材料的电阻温度系数为负的行为不同。LDPE衬底的热膨胀性能对GNP涂层的热阻特性有很强的影响。结果表明,当温度范围从20°C缩小到40°C时,LDPE样品上的GNP可以作为线性温度-电阻关系的温度传感器;当温度保持不变并施加0 ~ 4.2 × 10−3的机械应变时,GNP可以作为应变片工作,其应变系数约为48。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Thermomechanical Characteristics of Low-Density Polyethylene Substrates on the Thermoresistive Properties of Graphite Nanoplatelet Coatings
Morphological, structural, and thermoresistive properties of films deposited on low-density polyethylene (LDPE) substrates are investigated for possible application in flexible electronics. Scanning and transmission electron microscopy analyses, and X-ray diffraction measurements show that the films consist of overlapped graphite nanoplatelets (GNP) each composed on average of 41 graphene layers. Differential scanning calorimetry and dynamic-mechanical-thermal analysis indicate that irreversible phase transitions and large variations of mechanical parameters in the polymer substrates can be avoided by limiting the temperature variations between −40 and 40 °C. Electrical measurements performed in such temperature range reveal that the resistance of GNP films on LDPE substrates increases as a function of the temperature, unlike the behavior of graphite-based materials in which the temperature coefficient of resistance is negative. The explanation is given by the strong influence of the thermal expansion properties of the LDPE substrates on the thermo-resistive features of GNP coating films. The results show that, narrowing the temperature range from 20 to 40 °C, the GNP on LDPE samples can work as temperature sensors having linear temperature-resistance relationship, while keeping constant the temperature and applying mechanical strains in the 0–4.2 × 10−3 range, they can operate as strain gauges with a gauge factor of about 48.
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