Achieving High-Quality Single-Atom Nitrogen Doping of Graphene/ SiC(0001) by Ion Implantation and Subsequent Thermal Stabilization

Mykola Telychko; Pingo Mutombo; Martin Ondrá?ek; Prokop Hapala; Fran?ois C. Bocquet; Jind?ich Koloren?; Martin Vondrá?ek; Pavel Jelínek; Martin ?vec

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Achieving High-Quality Single-Atom Nitrogen Doping of Graphene/ SiC(0001) by Ion Implantation and Subsequent Thermal Stabilization

机译：通过离子注入和随后的热稳定作用实现石墨烯/ SiC（0001）的高质量单原子氮掺杂

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We report a straightforward method to produce high-quality nitrogen-doped graphene on SiC(0001) using direct nitrogen ion implantation and subsequent stabilization at temperatures above 1300 K. We demonstrate that double defects, which comprise two nitrogen defects in a second-nearest-neighbor (meta) configuration, can be formed in a controlled way by adjusting the duration of bombardment. Two types of atomic contrast of single N defects are identified in scanning tunneling microscopy. We attribute the origin of these two contrasts to different tip structures by means of STM simulations. The characteristic dip observed over N defects is explained in terms of the destructive quantum interference.

机译：我们报告了一种直接方法，使用直接氮离子注入并随后在高于1300 K的温度下稳定化，从而在SiC（0001）上生产高质量的氮掺杂石墨烯的简单方法。我们证明了双重缺陷，其中第二次缺陷包括两个氮缺陷邻居（元）配置可以通过控制轰击的持续时间以受控方式形成。在扫描隧道显微镜中鉴定出两种类型的单个N缺陷原子对比。我们通过STM模拟将这两种对比的起源归因于不同的针尖结构。根据破坏性量子干扰解释了在N个缺陷上观察到的特征倾角。

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《ACS nano》 |2014年第7期|共7页
作者
Mykola Telychko; Pingo Mutombo; Martin Ondrá?ek; Prokop Hapala; Fran?ois C. Bocquet; Jind?ich Koloren?; Martin Vondrá?ek; Pavel Jelínek; Martin ?vec;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
graphene; SiC; doping; nitrogen; implantation; STM; photoemission;

机译：石墨烯;SiC;掺杂;氮;注入;STM;光发射;

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1. Achieving High-Quality Single-Atom Nitrogen Doping of Graphene/ SiC(0001) by Ion Implantation and Subsequent Thermal Stabilization [J] . Mykola Telychko, Pingo Mutombo, Martin Ondrá?ek, ACS nano . 2014,第7期

机译：通过离子注入和随后的热稳定作用实现石墨烯/ SiC（0001）的高质量单原子氮掺杂
2. Nitrogen doping of chemical vapor deposition grown graphene on 4H-SiC (0001) [J] . Urban J.M., Dabrowski P., Binder J., Journal of Applied Physics . 2014,第23期

机译：在4H-SiC上化学气相沉积生长的石墨烯的氮掺杂（0001）
3. Pd Single-Atom Catalysts on Nitrogen-Doped Graphene for the Highly Selective Photothermal Hydrogenation of Acetylene to Ethylene [J] . Zhou Shiqi, Shang Lu, Zhao Yunxuan, Advanced Materials . 2019,第18期

机译：氮掺杂石墨烯上的钯单原子催化剂用于乙炔的高选择性光热加氢制乙烯
4. 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
5. Growth, doping and characterization of GaN and AlGaN deposited on 6H-SiC(0001) substrates via metalorganic vapor phase epitaxy for microelectronic applications. [D] . Bremser, Michael D. 1997

机译：微金属应用中通过金属有机气相外延生长在6H-SiC（0001）衬底上的GaN和AlGaN的生长，掺杂和表征。
6. Upgrading the Properties of Reduced Graphene Oxide and Nitrogen-Doped Reduced Graphene Oxide Produced by Thermal Reduction toward Efficient ORR Electrocatalysts [O] . Carolina S. Ramirez-Barria, Diana M. Fernandes, Cristina Freire, 2019

机译：高效ORR电催化剂对热还原产生的还原型氧化石墨烯和氮掺杂的还原型氧化石墨烯的性能的提升
7. Nitrogen-Doped Reduced Graphene Oxide Prepared by Simultaneous Thermal Reduction and Nitrogen Doping of Graphene Oxide in Air and Its Application as an Electrocatalyst [O] . -1

机译：通过在空气中同时热还原和氮气掺杂的氮气掺杂制备的氮气掺杂的氧化物及其作为电催化剂的应用

Achieving High-Quality Single-Atom Nitrogen Doping of Graphene/ SiC(0001) by Ion Implantation and Subsequent Thermal Stabilization

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