还原氧化石墨烯/聚己二酸丁二酯(Rgo/Pbat)纳米复合材料的导电和拉伸性能评价

L. Nayanajith, R. D. De Silva, S. R. R. S. R. Rosa, I. Kottegoda
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引用次数: 1

摘要

本研究的重点是评估氧化石墨烯/聚己二酸丁二酯(PBAT)纳米复合材料的导电和拉伸性能,该复合材料有望用于需要生物降解的电子应用。这项研究也被认为是有价值的,因为迄今为止在这方面所做的工作很少。PBAT是一种广泛应用于各种应用的可生物降解聚合物,因此被专门选择用于研究。采用溶剂浇铸法制备rGO/PBAT纳米复合材料,将rGO分散在PBAT溶液中,通过超声波将溶剂组分蒸发。当rGO含量从0.5%增加到1.5%时,rGO/PBAT纳米复合材料的电导率(σ)表现出渗透行为(σ随着rGO含量的增加而急剧增加)。渗透阈值约为0.0045(即0.75 w/w %的rGO)。与渗流理论相关的平均临界指数(t)为1.49±0.19,完全在1< t < 2的预期范围内。阻抗研究表明,氧化石墨烯/PBAT复合材料的电阻抗随氧化石墨烯含量的增加而降低,这与之前研究的导电行为一致。除了恒相元件CPE和电阻器R的值不同外,每个复合电路都显示出相同的等效电路;等效电路为CPE和r的并联组合。复合材料的介电分析表明,随着rGO含量的增加,介电参数ε "、ε '和耗散因子显著增加。当rGO含量为1.5%时,复合材料的拉伸强度优于纯PBAT,但随rGO含量的增加而降低。但随着还原氧化石墨烯含量的增加,断裂时的拉伸应变减小。结果表明,PBAT/rGO聚合物复合材料具有广泛的电子应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Conducting and Tensile Properties of Reduced Graphene Oxide/ Polybutylene Adipate Terephthalate (Rgo/Pbat) Nanocomposites
This study was focused on evaluation of conducting and tensile properties of rGO/ Polybutylene adipate terephthalate (PBAT) nanocomposite intended to use in electronic applications which require biodegradability. This study was also considered to be worthwhile since very little work has been done in this regard so far. PBAT was specifically selected for the study as it is an extensively used biodegradable polymer for variety of applications. The solvent casting method was employed to prepare rGO/PBAT nanocomposites where rGO was dispersed in a solution of PBAT by ultrasonication followed by evaporation of the solvent components. Electrical conductivity (σ) of rGO/PBAT nanocomposites showed a percolation behavior as rGO content was increased from the 0.5 % to 1.5 % (σ increased drastically with the increase of rGO content). The percolation threshold was approximately 0.0045, (i.e., 0.75 w/w % of rGO). The average critical exponent (t) related to the percolation theory was 1.49 ± 0.19 which is well within the expected range 1< t < 2. According to impedance studies, the electrical impedance of GO/PBAT composites decreased with the increasing rGO content, which agreed well with the behavior of the electrical conductivity investigated previously. The same equivalent circuit was shown by each composite except the values for constant phase element CPE and resistor R; the equivalent electrical circuit was a parallel combination of CPE and R. The dielectric analysis of the composites indicated that dielectric parameters ϵ”, ϵ’ and dissipation factor increased significantly with increasing rGO content. The tensile strength of the composites was better than that of neat PBAT up to 1.5 % of rGO loading and decreased on further increasing of rGO. However, their tensile strain at break decreased with increasing rGO content. The results indicated that PBAT/rGO polymer composite is promising candidate for various electronic applications.
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