Electronically conducting carbon coatings over alumina foams were prepared by the foams' impregnation in a polyurethane solution, followed by pyrolysis of the polymer layer. An optimal coating procedure was developed, using a commercial polyurethane lacquer. Pyrolysis was performed by heating the coated foams to 650-1,200 degrees C in Argon for 2-8 h. Coating characterization included surface area, phase composition, morphological and electrical conductivity measurements. Auger electron spectroscopy (AES) showed the composition was mostly carbon, with trace levels of oxygen impurities. Thickness, microstructure and interface between the alumina foam surface and the carbon film were analyzed using scanning electron microscopy (SEM and HR-SEM). The carbon film's specific electrical resistivity was 1-10 (Omega m x 10(-2)), depending on the pyrolysis time, temperature and number of coatings. The resistivity was found to decrease by a factor of six when the pyrolysis temperature was increased from 750 to 1,200 degrees C. A second carbon layer, reduced the resistivity further by about a factor of two. These effects are attributed to densification, improved connectivity between the carbon grains and an overall thickening of the carbon layer. Thermal analysis and Raman measurements on the carbon films point to a grain rearrangement that is consistent with the improved conductivity of the films.
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机译:通过将泡沫浸渍在聚氨酯溶液中,然后将聚合物层热解,可以制备氧化铝泡沫上的导电碳涂层。使用商用聚氨酯清漆开发了一种最佳的涂布程序。通过将涂覆的泡沫在氩气中加热到650-1,200摄氏度2-8小时来进行热解。涂层表征包括表面积,相组成,形态和电导率测量。俄歇电子能谱(AES)显示成分主要为碳,并含有微量的氧杂质。使用扫描电子显微镜(SEM和HR-SEM)分析了氧化铝泡沫表面和碳膜之间的厚度,微观结构和界面。碳膜的比电阻为1-10(Ωm x 10(-2)),具体取决于热解时间,温度和涂层数量。当热解温度从750摄氏度增加到1200摄氏度时,发现电阻率降低了六倍。第二碳层使电阻率进一步降低了约两倍。这些效果归因于致密化,碳晶粒之间改善的连通性以及碳层的整体增厚。对碳膜的热分析和拉曼测量表明,晶粒的重排与膜的导电性提高相一致。
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