Growth of boron-doped few-layer graphene by molecular beam epitaxy

Soares G. V.; Nakhaie S.; Heilmann M.; Riechert H.; Lopes J. M. J.

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Growth of boron-doped few-layer graphene by molecular beam epitaxy

机译：分子束外延生长掺硼几层石墨烯

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We investigated the growth of boron-doped few-layer graphene on alpha-Al2O3 (0001) substrates by molecular beam epitaxy using two different growth approaches: one where boron was provided during the entire graphene synthesis and the second where boron was provided only during the second half of the graphene growth run. Electrical measurements show a higher p-type carrier concentration for samples fabricated utilizing the second approach, with a remarkable modulation in the carrier concentration of almost two orders of magnitude in comparison to the pristine graphene film. The results concerning the influence of the boron flux at different growth stages of graphene on the electrical and physicochemical properties of the films are presented. Published by AIP Publishing.

机译：我们使用两种不同的生长方法，通过分子束外延研究了Al-Al2O3（0001）衬底上掺杂硼的多层石墨烯的生长：一种是在整个石墨烯合成过程中提供硼，第二种是仅在石墨烯合成过程中提供硼。石墨烯增长的下半年。电学测量表明，采用第二种方法制造的样品具有较高的p型载流子浓度，与原始石墨烯薄膜相比，载流子浓度的显着调节几乎达到两个数量级。提出了有关石墨烯不同生长阶段硼通量对薄膜电学和物理化学性能影响的结果。由AIP Publishing发布。

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来源
《Applied Physics Letters》 |2018年第16期|163103.1-163103.5|共5页
作者
Soares G. V.; Nakhaie S.; Heilmann M.; Riechert H.; Lopes J. M. J.;
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作者单位

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

Leibniz Inst Forschungsverbund Berlin eV, Paul Drude Inst Festkorperelektron, Hausvogteipl 5-7, D-10117 Berlin, Germany;

Leibniz Inst Forschungsverbund Berlin eV, Paul Drude Inst Festkorperelektron, Hausvogteipl 5-7, D-10117 Berlin, Germany;

Leibniz Inst Forschungsverbund Berlin eV, Paul Drude Inst Festkorperelektron, Hausvogteipl 5-7, D-10117 Berlin, Germany;

Leibniz Inst Forschungsverbund Berlin eV, Paul Drude Inst Festkorperelektron, Hausvogteipl 5-7, D-10117 Berlin, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 03:13:53

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Growth of boron-doped few-layer graphene by molecular beam epitaxy

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