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纳米石墨烯展望:六苯并蔻在功能材料设计中的新兴作用

Nanographene horizons: the emerging role of hexa--hexabenzocoronene in functional material design.

作者信息

Mughal Ehsan Ullah, Naeem Nafeesa, Kainat Syeda Fariha, Sadiq Amina, Ogaly Hanan A

机构信息

Department of Chemistry, University of Gujrat Gujrat-50700 Pakistan

Department of Chemistry, Govt College Women University Sialkot-51300 Pakistan.

出版信息

RSC Adv. 2025 Aug 27;15(37):30490-30551. doi: 10.1039/d5ra04623h. eCollection 2025 Aug 22.

DOI:10.1039/d5ra04623h
PMID:40895744
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12394830/
Abstract

Hexa--hexabenzocoronene (HBC) and its derivatives have emerged as prominent polycyclic aromatic hydrocarbons (PAHs) due to their unique structural, electronic, and photophysical properties. This review provides a comprehensive overview of the synthetic strategies employed for the construction of HBC frameworks, ranging from traditional methods to recent advances that offer improved efficiency, regioselectivity, and structural diversity. The molecular architecture of HBCs, characterized by extended π-conjugation and planarity, contributes significantly to their stability and distinctive physical properties, including high charge-carrier mobility and tunable optical absorption. We further highlight the multifaceted applications of HBC-based materials, particularly in the realm of organic and optoelectronic devices, where their excellent semiconducting behavior and strong π-π stacking facilitate their use in organic field-effect transistors (OFETs), organic photovoltaics (OPVs), and organic light-emitting diodes (OLEDs). Their roles in energy storage, especially in supercapacitors and battery systems, are also discussed, focusing on their ability to enhance charge storage and cycling stability. Moreover, HBCs have demonstrated potential as catalytic platforms and chemical sensors due to their electron-rich surfaces and functionalizable peripheries. Finally, the incorporation of HBC derivatives in biomedical fields such as bioimaging and drug delivery is reviewed, with emphasis on their biocompatibility, fluorescence properties, and structural adaptability. Overall, this article underscores the significant progress in HBC research and its expanding role in diverse scientific and technological domains.

摘要

六苯并蔻(HBC)及其衍生物因其独特的结构、电子和光物理性质,已成为重要的多环芳烃(PAHs)。本综述全面概述了构建HBC骨架所采用的合成策略,涵盖从传统方法到近期进展,这些进展提高了效率、区域选择性和结构多样性。HBC的分子结构以扩展的π共轭和平面性为特征,对其稳定性和独特的物理性质有显著贡献,包括高载流子迁移率和可调谐光吸收。我们进一步强调了基于HBC材料的多方面应用,特别是在有机和光电器件领域,其优异的半导体行为和强π-π堆积有利于它们在有机场效应晶体管(OFET)、有机光伏(OPV)和有机发光二极管(OLED)中的应用。还讨论了它们在能量存储中的作用,特别是在超级电容器和电池系统中,重点关注其增强电荷存储和循环稳定性的能力。此外,由于HBC富电子表面和可功能化的外围,它们已展现出作为催化平台和化学传感器的潜力。最后,综述了HBC衍生物在生物成像和药物递送等生物医学领域的应用,重点介绍了它们的生物相容性、荧光性质和结构适应性。总体而言,本文强调了HBC研究的重大进展及其在不同科技领域不断扩大的作用。

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