Strain-inducing photochemical chlorination of graphene nanoribbons on SiC (0001)

Copetti Gabriela; Nunes Eduardo H.; Feijo Tais O.; Galves Lauren A.; Heilmann Martin; Soares Gabriel V; Lopes J. Marcelo J.; Radtke Claudio

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Strain-inducing photochemical chlorination of graphene nanoribbons on SiC (0001)

机译：SiC（0001）上石墨烯纳米波纹的应变诱导光化学氯化

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As different low-dimensional materials are sought to be incorporated into microelectronic devices, graphene integration is dependent on the development of band gap opening strategies. Amidst the different methods currently investigated, application of strain and use of electronic quantum confinement have shown promising results. In the present work, epitaxial graphene nanoribbons (GNR), formed by surface graphitization of SiC (0001) on crystalline step edges, were submitted to photochemical chlorination. The incorporation of Cl into the buffer layer underlying graphene increased the compressive uniaxial strain in the ribbons. Such method is a promising tool for tuning the band gap of GNRs.

机译：随着不同的低维材料被用于微电子器件，石墨烯的集成取决于带隙开放策略的发展。在目前研究的不同方法中，应变的应用和电子量子限制的使用已经显示出有希望的结果。在本研究中，将SiC（0001）在晶体台阶边缘表面石墨化形成的外延石墨烯纳米带（GNR）进行光化学氯化。在石墨烯下面的缓冲层中加入Cl会增加带状物的单轴压缩应变。这种方法是调谐GNR带隙的一种很有前途的工具。

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来源
《Nanotechnology》 |2021年第14期|共6页
作者
Copetti Gabriela; Nunes Eduardo H.; Feijo Tais O.; Galves Lauren A.; Heilmann Martin; Soares Gabriel V; Lopes J. Marcelo J.; Radtke Claudio;
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作者单位

Univ Fed Rio Grande do Sul Inst Fis BR-91501970 Porto Alegre RS Brazil;

Univ Fed Rio Grande do Sul Inst Quim BR-90650001 Porto Alegre RS Brazil;

Leibniz Inst Forsch Verbund Berlin eV Paul Drude Inst Festkorperelekt D-10117 Berlin Germany;

Leibniz Inst Forsch Verbund Berlin eV Paul Drude Inst Festkorperelekt D-10117 Berlin Germany;

Leibniz Inst Forsch Verbund Berlin eV Paul Drude Inst Festkorperelekt D-10117 Berlin Germany;

Univ Fed Rio Grande do Sul Inst Fis BR-91501970 Porto Alegre RS Brazil;

Leibniz Inst Forsch Verbund Berlin eV Paul Drude Inst Festkorperelekt D-10117 Berlin Germany;

Univ Fed Rio Grande do Sul Inst Quim BR-90650001 Porto Alegre RS Brazil;

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正文语种 eng
中图分类特种结构材料;
关键词
graphene; nanoribbons; SiC; strain; chlorine; XPS; Raman;

机译：石墨烯;纳米带;碳化硅;拉紧氯;XPS;拉曼;

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专利

1. Hydrogenation of the buffer-layer graphene on 6H-SiC （0001）： A possible route for the engineering of graphene- based devices [J] . Yu-Pu Lin, Younal Ksari, Jean-Marc Themlin 纳米研究：英文版 . 2015,第003期
2. Growth of atomically thick transition metal sulfide films on graphene/6H-SiC(0001) by molecular beam epitaxy [J] . Haicheng Lin, Wantong Huang, Kun Zhao, 纳米研究（英文版） . 2018,第009期
3. Growth of atomically thick transition metal sulfide films on graphene/6H-SiC（0001） by molecular beam epitaxy [J] . Haicheng Lin1, Wantong Huang1, Kun Zhao1, 纳米研究：英文版 . 2018,第009期
4. Modulating doping and interface magnetism of epitaxial graphene on SiC(0001) [J] . Pan Zhou, Da-Wei He 中国物理：英文版 . 2016,第001期
5. Self-organized metal-semiconductor epitaxial graphene layer on off-axis 4H-SiC（0001） [J] . Debora Pierucci1, Haikel Sediri1, Mahdi Hajlaoui12, 纳米研究：英文版 . 2015,第003期
6. Quasiperiodic modulation of electronic states at edges of tellurium nanoribbons on graphene/6H-SiC(0001) [J] . Guangyao Miao, Jingsi Qiao, Xiaochun Huang, Physical review.B.Condensed matter and materials physics . 2021,第23期

机译：石墨烯纳米沥青边缘电子态的QuaSipheriodic调制/ 6H-SiC（0001）
7. A patterning-free approach for growth of free-standing graphene nanoribbons using step-bunched facets of off-oriented 4H-SiC(0001) epilayers [J] . Journal of Physics, D. Applied Physics: A Europhysics Journal . 2020,第11期

机译：使用截止面向4H-SIC（0001）脱落器的步进围平面的独立石墨烯纳米队的自由静态石墨烯纳米植物进行图案化方法
8. Graphene Nanoribbons Grown on Epitaxial Si_xC_yO_z Layer on Vicinal SiC(0001) Surfaces　by Chemical Vapor Deposition [J] . Yoshihito Hagihara, Takashi Kajiwara, Anton Visikovskiy, _Applied Physics Express . 2013,第5期

机译：通过化学气相沉积法在SiC（0001）表面上外延Si_xC_yO_z层上生长的石墨烯纳米带
9. Density Functional Simulations of Physisorbed and Chemisorbed Single Graphene Layers on 4H-SiC (0001), (0001) and 4H-SiC:H surface [C] . J. P. Goss, P. R. Briddon, N. G. Wright, Silicon carbide and related materials 2009 . 2010

机译：4H-SiC（0001），（0001）和4H-SiC：H表面上物理吸附和化学吸附的单石墨烯层的密度泛函模拟
10. The Rational Design and Synthesis of Graphene Nanoribbons and Graphene Nanoribbon Functional Nanoarchitectures [D] . Durr, Rebecca Ann. 2017

机译：石墨烯纳米带和石墨烯纳米带功能纳米结构的合理设计与合成
11. Graphite graphene on SiC and graphene nanoribbons: Calculated images with a numerical FM-AFM [O] . Fabien Castanié, Laurent Nony, Sébastien Gauthier, 2012

机译：石墨SiC上的石墨烯和石墨烯纳米带：使用数字FM-AFM计算的图像
12. Epitaxial Graphene Nanoribbons on Bunched Steps of a 6H-SiC(0001) Substrate: Aromatic Ring Pattern and Van Hove Singularities [O] . Ridene, M., Wassmann, T., Pallecchi, E., 2012

机译：6H-siC（0001）成束台上的外延石墨烯纳米带基材：芳环图案和范霍夫奇点
13. Chemically Resolved Interface Structure of Epitaxial Graphene on SiC(0001) [R] . Emery, J D, Detlefs, B, Karmel, HJ, 2013

机译：化学分辨siC（0001）上外延石墨烯的界面结构

Strain-inducing photochemical chlorination of graphene nanoribbons on SiC (0001)

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