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Newly discovered graphyne allotrope with rare and robust Dirac node loop

Pinglan Yan, Tao Ouyang, Chaoyu He, Jin Li, Chunxiao Zhang, Chao Tang, Jianxin Zhong

2021Nanoscale47 citationsDOI

Abstract

carbon atoms (graphene: E8) and 24 sp carbon atoms (grapheyne: Y24) in the crystalline cell. This 2D material is as energetically stable as the recently experimentally synthesized β-graphdiyne, and it is further predicted to be dynamically, mechanically, and also thermodynamically stable. Owing to its intrinsic geometric characteristics, 123-E8Y24-1 also exhibits obvious Young's modulus anisotropy, with a sizable ratio between the maximum and minimum value of up to 5.8. Remarkably, 123-E8Y24-1 presents a semimetal nature and possesses Dirac nodal line states in the electronic band structure, and such behavior could be kept well under external strain between -10.0% and 8.0%. The electronic properties of 123-E8Y24-1 can be carefully confirmed by constructing a tight-binding (TB) model. The findings presented in this paper reveal a novel 2D Dirac nodal loop carbon sheet, providing a new candidate for carbon-based high-speed electronic devices.

Topics & Concepts

GraphyneDirac (video compression format)MonolayerSemimetalNode (physics)Carbon fibersLoop (graph theory)Materials scienceCondensed matter physicsNanotechnologyTopology (electrical circuits)PhysicsGrapheneBand gapQuantum mechanicsEngineeringElectrical engineeringCombinatoricsMathematicsComposite materialNeutrinoComposite numberGraphene research and applicationsTopological Materials and Phenomena2D Materials and Applications
Newly discovered graphyne allotrope with rare and robust Dirac node loop | Litcius