In view of increasing applications of electro-conductive polymers in various fields such as electronics, smart textiles, sensors, energy storage, and medical. Researchers & Scientists from all over the world have continuously investigating the intrinsic conductive polymers (CPs) and its doping process to gain appreciable electrical conductivity suitable for particular applications. Its unique features such as superior stability, processability, workability, light weight, corrosion resistant, tailoribility, flexibility, and gaining wide range of electrical conductivity on doping drives CPs as a possible substitute for metals and semiconductors. An effort has been made to bring various aspects of CPs viz. different methods of synthesis, its applications, doping techniques, characterization techniques, and current trends of its utility. This review article clearly specifies about the different techniques available for the synthesis of CPs such as Polyacetylene, Polyaniline, Polypyrrole, Polyphenylene, Polythiophene, Polyphenyl vinylene, and Poly(3,4-ethylenedioxythiophene) via polymerization using chemical, plasma, electro-chemical, photo-chemical, metathesis methods, and so on, and their electrical conductivity values achieved with and without dopants.

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导电聚合物的合成、表征及应用：简要回顾

鉴于导电聚合物在电子、智能纺织品、传感器、储能和医疗等各个领域的应用越来越多。来自世界各地的研究人员和科学家不断研究本征导电聚合物 (CP) 及其掺杂过程，以获得适用于特定应用的可观导电性。其独特的特性，例如卓越的稳定性、可加工性、可加工性、重量轻、耐腐蚀、可定制性、灵活性以及在掺杂上获得广泛的导电性，促使 CP 成为金属和半导体的可能替代品。已努力使 CP 的各个方面即。不同的合成方法、其应用、掺杂技术、表征技术及其效用的当前趋势。