Effect of stone-wales defects and edge roughness on the switching and frequency performance of graphene nanoribbon-FET

机译：石纹缺陷和边缘粗糙度对石墨烯纳米带FET的开关和频率性能的影响

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The novel electronic properties of graphene nanoribbons (GNRs) including purely two-dimensional structure along with its tunable bandgap have led to intense research into possible applications of this material in nanoscale devices. However, as yet, dimensions of its possibilities in practical device levels have remained inconsistent. In this paper we propose a model for GNR-FET that is made from only Armchair GNRs. Our complete NEGF-based simulation reveals its potential for fast digital electronics with On/Off ratio up to 103, transconductance of 8.5×10 nSm which lead to a analog operational frequency up to 3.3THz. The effects of Stone-Wales defects and Edge Roughness in GNRs have been analysed here that shows switching and frequency performance degradation of such GNR-FETs.

机译：石墨烯纳米带（GNR）的新颖电子特性（包括纯二维结构及其可调带隙）已导致人们对该材料在纳米级器件中的可能应用进行了深入研究。然而，到目前为止，其在实际设备水平上的可能性尺寸仍然不一致。在本文中，我们提出了仅由扶手椅GNR制成的GNR-FET模型。我们完整的基于NEGF的仿真显示了其快速数字电子的潜力，其开/关比高达103，跨导为8.5×10 nS / nm，从而可产生高达3.3THz的模拟工作频率。本文分析了GNR中Stone-Wales缺陷和边缘粗糙度的影响，结果表明此类GNR-FET的开关和频率性能下降。

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《International Conference on Electrical and Computer Engineering》|2014年|96-99|共4页
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Saha A.K.; Saha Gobinda; Harun-ur Rashid A.B.M.;
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Green's function methods; crystal defects; field effect transistors; graphene devices; microwave transistors; nanoribbons; semiconductor device models; Armchair GNR; C; GNR-FET; NEGF-based simulation; Stone-Wales defects; analog operational frequency; digital electronics; edge roughness; electronic properties; field effect transistors; graphene nanoribbon; nanoscale devices; nonequilibrium Green's function; tunable bandgap; Cutoff frequency; Field effect transistors; Graphene; Logic gates; Materials; Performance evaluation; Photonic band gap; Armchair GNR; Edge Roughness; GNR-FET; NEGF; Stone-Wales Defects;

机译：Green函数法;晶体缺陷;场效应晶体管;石墨烯器件;微波晶体管;纳米带;半导体器件模型;扶手椅GNR; C; GNR-FET;基于NEGF的仿真; Stone-Wales缺陷;模拟工作频率;数字电子器件;边缘粗糙度;电子性能;场效应晶体管;石墨烯纳米带;纳米级器件;非平衡格林函数;可调带隙;截止频率;场效应晶体管;石墨烯;逻辑门;材料;性能评估;光子带隙;扶手椅GNR;边缘粗糙度; GNR -FET; NEGF;石-威尔缺陷;

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专利

1. 逆Stone-Thrower-Wales缺陷和9AGNR双栅石墨烯纳米带FET的传输特性 [J] . Mohammad Bagher NASROLLAHNEJAD, Parviz KESHAVARZI 中南大学学报（英文版） . 2019,第011期
2. The effect of Stone-Wales defects and roughness degree on the lubricity of graphene on gold surfaces [J] . Ebrahimi Sadollah Journal of molecular modeling . 2018,第4期

机译：石材 - 威尔士缺陷和粗糙度对金表面润滑性润滑性的影响
3. Zigzag graphene nanoribbon edge reconstruction with Stone-Wales defects [J] . J. N. B. Rodrigues, P. A. D. Goncalves, N. F. G. Rodrigues, Physical review . 2011,第15期

机译：带有Stone-Wales缺陷的锯齿形石墨烯纳米带边缘重建
4. Electronic and magnetic properties of zigzag edge graphene nanoribbons with Stone-Wales defects [J] . Lu P, Zhang ZH, Guo WL Physics Letters, A . 2009,第37期

机译：具有Stone-Wales缺陷的锯齿形边缘石墨烯纳米带的电子和磁性
5. Effect of stone-wales defects and edge roughness on the switching and frequency performance of graphene nanoribbon-FET [C] . Saha A.K., Saha Gobinda, Harun-ur Rashid A.B.M. International Conference on Electrical and Computer Engineering . 2014

机译：石威尔士缺陷和边缘粗糙度对石墨烯纳米丝型开关和频率性能的影响
6. Extended Stone-Wales defects in graphene [D] . Rodrigues, Jo?o Nuno Barbosa. 2013

机译：延长石墨烯的缺陷
7. Role of Stone-Wales defects on the interfacial interactions among graphene carbon nanotubes and Nylon 6: A first-principles study [O] . Sanjiv K. Jha, Michael Roth, Guido Todde, -1

机译：Stone-Wales缺陷对石墨烯碳纳米管和尼龙6之间的界面相互作用的作用：第一性原理研究
8. Zigzag graphene nanoribbon edge reconstruction with Stone-Wales defects [O] . Rodrigues J. N. B., Gonçalves P. A. D, Rodrigues N. F. G., 2011

机译：Zigzag石墨烯纳米带边缘重建与stone-Wales缺陷

Effect of stone-wales defects and edge roughness on the switching and frequency performance of graphene nanoribbon-FET

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