Abstract Over the past decade conducting polymers have been studied for electronic applications, among them, molecular electronics: the study and investigation of molecular building blocks is a next-generation demanded area of research. Hence, the moletronic equivalent multi-functional advantages of cyclopolymerized 1,6-heptadiyne (HD) systems explored in this review. Further, this report elucidates physical properties via conditional cyclopolymerization methodologies, it describes the chemistry of tethering molecular-chains facilitated intrinsic-conductivity. HD and its derivatives induce superior conductivity characteristics via doping elements, wherein, significant electronic conductivity mechanism is attributable to the solitons and anti-solitons, which was described in this context. HD and their derivatives molecular mechanism, its compatibility are expounded for moletronic application, which is new insight of the article. Moreover, required inherent characteristics, for e.g., thermal-stability, chemical-resistance, mechanical properties, magnetic, and electronic properties have been discussed. Furthermore, failures, physical limitations, and its realizable similarity solutions for moletronics have described. Though electronic or moletronic components having failures and other physical limitations, HDs offers excellent conductivity with wide functional and physical properties that could lead to potential candidates to deliver efficient and low-cost moletronic devices.

中文翻译：

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多功能共轭 1,6-庚二炔及其衍生物受激分子电子学：未来分子电子学

摘要 在过去的十年中，导电聚合物已被研究用于电子应用，其中，分子电子学：分子构建块的研究和调查是下一代需要研究的领域。因此，本文探讨了环聚合 1,6-庚二炔 (HD) 系统的摩尔电子等效多功能优势。此外，该报告通过条件环聚合方法阐明了物理性质，它描述了束缚分子链促进本征导电性的化学。HD及其衍生物通过掺杂元素诱导出优异的导电特性，其中，显着的电子导电机制归因于孤子和反孤子，这在本文中进行了描述。HD及其衍生物分子机制，阐述了其对摩尔电子学应用的兼容性，这是本文的新见解。此外，还讨论了所需的固有特性，例如热稳定性、耐化学性、机械特性、磁性和电子特性。此外，还描述了分子电子学的故障、物理限制及其可实现的相似性解决方案。尽管电子或分子电子元件存在故障和其他物理限制，但 HD 具有出色的导电性和广泛的功能和物理特性，可能会成为提供高效和低成本分子电子器件的潜在候选者。已经讨论了磁性和电子特性。此外，还描述了分子电子学的故障、物理限制及其可实现的相似性解决方案。尽管电子或分子电子元件存在故障和其他物理限制，但 HD 具有出色的导电性和广泛的功能和物理特性，可能会成为提供高效和低成本分子电子器件的潜在候选者。已经讨论了磁性和电子特性。此外，还描述了分子电子学的故障、物理限制及其可实现的相似性解决方案。尽管电子或分子电子元件存在故障和其他物理限制，但 HD 具有出色的导电性和广泛的功能和物理特性，可能会成为提供高效和低成本分子电子器件的潜在候选者。