Atomistic simulations of mechanical properties of graphene nanoribbons

Bu H; Chen YF; Zou M; Yi H; Bi KD; Ni ZH

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Atomistic simulations of mechanical properties of graphene nanoribbons

机译：石墨烯纳米带力学性能的原子模拟

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The mechanical behavior of graphene nanoribbons (GNRs) was investigated by molecular dynamics (MD) simulations. The simulation results showed that GNRs behave nonlinear elastically under tensile loads. When the strain exceeds 18%. the stress stiffening causes an increase in the Young's modulus. The width of a GNR has slight effects on the Young modulus and fracture strength. The maximum strain at which fracture occurs can reach 30.26% with an intrinsic strength of about 0.175 TPa. The excellent flexibility is attributed to the elongation of the C-C bonds and the variations of the bond angles.

机译：通过分子动力学（MD）模拟研究了石墨烯纳米带（GNR）的机械行为。仿真结果表明，GNR在拉伸载荷作用下具有非线性弹性。当应变超过18％时。应力变硬导致杨氏模量增加。 GNR的宽度对杨氏模量和断裂强度影响不大。发生断裂的最大应变可以达到30.26％，固有强度约为0.175 TPa。优异的柔韧性归因于C-C键的伸长和键角的变化。

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《Physics Letters, A》 |2009年第37期|共4页
作者
Bu H; Chen YF; Zou M; Yi H; Bi KD; Ni ZH;
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正文语种 eng
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关键词
Graphene; Nanoribbon; Young's modulus; Elastic deformation;

机译：石墨烯;纳米带;杨氏模量;弹性变形;

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1. Atomistic simulations of mechanical properties of graphene nanoribbons [J] . Bu H, Chen YF, Zou M, Physics Letters, A . 2009,第37期

机译：石墨烯纳米带力学性能的原子模拟
2. Atomistic simulations on the mechanical properties of silicene nanoribbons under uniaxial tension [J] . Jing Y., Sun Y., Niu H., Physica status solidi, B. Basic research . 2013,第8期

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3. Atomistic Modelling of Size-Dependent Mechanical Properties and Fracture of Pristine and Defective Cove-Edged Graphene Nanoribbons [J] . Daniela A. Damasceno, R.K.N.D. Nimal Rajapakse, Euclides Mesquita Nanomaterials . 2020,第7期

机译：原子依赖性机械性能和原始和缺陷的叶片边缘石墨烯纳米标的原子模型及骨折
4. Physical insights on graphene nanoribbon mobility through atomistic simulations [C] . Betti A., Fiori G., Iannaccone G., Electron Devices Meeting (IEDM), 2009 . 2009

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5. Atomistic simulations of fracture of two-dimensional graphene systems and the elastic properties of carbon nanotubes. [D] . Jin, Yun. 2004

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6. Atomistic Modelling of Size-Dependent Mechanical Properties and Fracture of Pristine and Defective Cove-Edged Graphene Nanoribbons [O] . Daniela A. Damasceno, R.K.N.D. Nimal Rajapakse, Euclides Mesquita 2020

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7. Mechanical properties of single layer graphene nanoribbons through bending experimental simulations [O] . Weidong Wang, Cuili Shen, Shuai Li, 2014

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Atomistic simulations of mechanical properties of graphene nanoribbons

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