Polyindole-based hybrid composites are being recognized as a promising candidate to be used in energy storage field along with other conjugated organic polymers. Polyindoles themselves are affected with low electrical and electrochemical conductivity; nevertheless, high redox activity, tunable electrical conductivity, significant thermal stability, slow degradation rate, and possible blending property give them upper hand to be used as a good contender. Certain factors viz. electrolyte, concentration, morphology, pH, temperature, etc., are major components affecting performance of Polyindole and its composites. This assessment recapitulates the position of Polyindole and its hybrid composite to be used as energy harvest material; in addition, this evaluation also pronounces the future aspect of the hybrids.

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聚吲哚及其复合材料在超级电容器中的临界分析

聚吲哚基杂化复合材料被认为是与其他共轭有机聚合物一起用于储能领域的有前途的候选材料。聚吲哚本身受到低电导率和电化学电导率的影响。但是，高氧化还原活性，可调节的电导率，显着的热稳定性，缓慢的降解速率以及可能的共混性能使它们占据上风，可以用作良好的竞争者。某些因素。电解质，浓度，形态，pH，温度等是影响聚吲哚及其复合材料性能的主要成分。该评估概括了聚吲哚及其杂化复合材料用作能量收集材料的地位；此外，该评估还表明了混合动力车的未来发展。