Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect

Guo-xun Wu; Chenliang Li; Yu-hang Jing; Chao-ying Wang; Yong Yang; Zhen-qing Wang

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Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect

机译：具有5-7-5环缺陷的石墨烯纳米带异质结的电子输运性质

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Using the non-equilibrium Green's function method together with the density-functional theory, the electronic transport properties of heterojunction models constructed with armchair and zigzag graphene nanoribbon (GNR) units via topological defects have been investigated. It is found that the diode-like behavior and conductivity of the armchair9-zigzag4 (A9-Z4) junctions are associated with the length of the nanoribbon sub-units closely. The structure similar to the p-n junction is formed around the defect region, inducing the rectifying property of the model. Moreover, the conductivity of symmetrical heterojuction structures can be optimized by controlling the length of GNR units.

机译：利用非平衡格林函数方法和密度泛函理论，研究了扶手椅和锯齿形石墨烯纳米带（GNR）单元通过拓扑缺陷构建的异质结模型的电子输运性质。发现扶手椅状9-zigzag4（A9-Z4）结的类二极管行为和导电性与纳米带子单元的长度紧密相关。在缺陷区域周围形成类似于p-n结的结构，从而诱导了模型的整流特性。此外，可以通过控制GNR单元的长度来优化对称异质结结构的电导率。

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来源
《Computational Materials Science》 |2014年第null期|共5页
作者
Guo-xun Wu; Chenliang Li; Yu-hang Jing; Chao-ying Wang; Yong Yang; Zhen-qing Wang;
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正文语种 eng
中图分类工程材料学;
关键词
GNR; Heterojunction; Topological defect; Rectifying property; Electronic transport property;

机译：GNR;异质结;拓扑缺陷;整流性;电子输运性;

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1. Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect [J] . Guo-xun Wu, Chenliang Li, Yu-hang Jing, Computational Materials Science . 2014,第Null期

机译：具有5-7-5环缺陷的石墨烯纳米带异质结的电子输运性质
2. Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect [J] . Guo-xun Wu, Chenliang Li, Yu-hang Jing, Computational Materials Science . 2014,第Null期

机译：具有5-7-5环缺陷的石墨烯纳米带异质结的电子输运性质
3. Electronic, magnetic, and spin-polarized transport properties of hybrid graphene/boron-nitride nanoribbons having 5-8-5 line defects at the heterojunction [J] . Tran Nguyen Lan, Le Bin Ho, Tran Hoang Hai Physica status solidi, B. Basic research . 2015,第3期

机译：在异质结处具有5-8-5线缺陷的混合石墨烯/氮化硼纳米带的电子，磁性和自旋极化传输性质
4. THEORETICAL STUDY OF HETEROJUNCTION-LIKE ELECTRONIC PROPERTIES BETWEEN A SEMICONDUCTIVE GRAPHENE NANORIBBON AND A METALLIC GRAPHENE FOR HIGHLY SENSITIVE STRAIN SENSORS [C] . Qinqiang Zhang, Xiangyu Qiao, Masasuke Kobayashi, International Mechanical Engineering Congress and Exposition . 2020

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5. Electronic Transport in Atomically Precise Graphene Nanoribbons [D] . Llinas, Juan Pablo. 2020

机译：原子精确石墨烯纳米中的电子传输
6. Effects of Divacancy and Extended Line Defects on the Thermal Transport Properties of Graphene Nanoribbons [O] . Min Luo, Bo-Lin Li, Dengfeng Li 2019

机译：脱模和延伸线缺陷对石墨烯纳米带的热输运性质的影响
7. Electronic Structure and Transport in Graphene Nanoribbon Heterojunctions under Uniaxial Strain: Implications for Flexible Electronics [O] . -1

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Electronic transport properties of graphene nanoribbon heterojunctions with 5-7-5 ring defect

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