Foray into the topology of poly‐bi‐[8]‐annulenylene

IF 2.6 Q2 MULTIDISCIPLINARY SCIENCES Natural sciences (Weinheim, Germany) Pub Date : 2023-05-10 DOI:10.1002/ntls.20230015
V. Muruganandam, M. Sajjan, S. Kais
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Abstract

Analyzing phase transitions using the inherent geometrical attributes of a system has garnered enormous interest over the past few decades. The usual candidate often used for investigation is graphene—the most celebrated material among the family of tri‐coordinated graphed lattices. We show in this report that other inhabitants of the family demonstrate equally admirable structural and functional properties that at its core are controlled by their topology. Two interesting members of the family are cyclooctatrene (COT) and COT‐based polymer: poly‐bi‐[8]‐annulenylene, both in one and two dimensions that have been investigated by polymer chemists over a period of 50 years for its possible application in batteries exploiting its conducting properties. A single COT unit is demonstrated herein to exhibit topological solitons at sites of a broken bond similar to an open one‐dimensional Su–Schrieffer–Heeger (SSH) chain. We observe that poly‐bi‐[8]‐annulenylene in one dimension mimics two coupled SSH chains in the weak coupling limit, thereby showing the presence of topological edge modes. In the strong coupling limit, we investigate the different parameter values of our system for which we observe zero‐energy modes. Further, the application of an external magnetic field and its effects on the band flattening of the energy bands has also been studied. In two dimensions, poly‐bi‐[8]‐annulenylene forms a square‐octagon lattice which upon breaking time‐reversal symmetry goes into a topological phase forming noise‐resilient edge modes. We hope our analysis would pave the way for synthesizing such topological materials and exploiting their properties for promising applications in optoelectronics, photovoltaics, and renewable energy sources. We show in this paper tri‐coordinated lattice systems: cylooctatrene (COT) and COT‐based polymer: poly‐bi‐[8]‐annulenylene exhibit exotic topological properties. Flat bands are generated upon application of tailored magnetic flux for poly‐bi‐[8]‐annulenylene in one dimension. Insights from this paper open the possibility of using these polymers as an experimental ground to observe many flat‐band and topology‐related phenomena.

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探讨聚-双-[8]-环烯的拓扑结构
在过去的几十年里,利用系统固有的几何属性来分析相变已经引起了人们极大的兴趣。通常用于研究的候选材料是石墨烯,它是三坐标图晶格家族中最著名的材料。我们在本报告中表明,该家族的其他成员表现出同样令人钦佩的结构和功能特性,其核心是由其拓扑结构控制的。该家族的两个有趣的成员是环己烷(COT)和基于COT的聚合物:聚双[8]-环烯,在一维和二维上,聚合物化学家已经研究了50年,以利用其导电性能在电池中的可能应用。本文证明了单个COT单元在断裂键的位置上表现出类似于开放的一维Su-Schrieffer-Heeger (SSH)链的拓扑孤子。我们观察到一维的聚双[8]-环烯在弱耦合极限下模拟了两个耦合的SSH链,从而显示出拓扑边缘模式的存在。在强耦合极限下,我们研究了观测到零能模式的系统的不同参数值。此外,还研究了外加磁场的施加及其对能带平坦化的影响。在二维空间中,聚双[8]-环烯形成一个方形-八边形晶格,在打破时间反转对称性后进入拓扑相位,形成噪声弹性边缘模式。我们希望我们的分析能为合成这种拓扑材料铺平道路,并利用它们在光电子、光伏和可再生能源方面的有前途的应用。我们在论文中展示了三配位晶格体系:环丁烯(COT)和基于COT的聚合物:聚双[8]环烯具有奇特的拓扑性质。在一维条件下,对聚双[8]-环烯施加定制磁通,可产生平带。本文的见解打开了使用这些聚合物作为实验场地来观察许多平带和拓扑相关现象的可能性。
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