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Macroscopic self-reorientation of interacting two-dimensional crystals.
Woods, C R; Withers, F; Zhu, M J; Cao, Y; Yu, G; Kozikov, A; Ben Shalom, M; Morozov, S V; van Wijk, M M; Fasolino, A; Katsnelson, M I; Watanabe, K; Taniguchi, T; Geim, A K; Mishchenko, A; Novoselov, K S.
Afiliação
  • Woods CR; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Withers F; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Zhu MJ; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Cao Y; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Yu G; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Kozikov A; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Ben Shalom M; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • Morozov SV; School of Physics and Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
  • van Wijk MM; Institute of Microelectronics Technology and High Purity Materials RAS, Chernogolovka 142432, Russia.
  • Fasolino A; National University of Science and Technology 'MISiS', Moscow 119049, Russia.
  • Katsnelson MI; Radboud University, Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands.
  • Watanabe K; Radboud University, Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands.
  • Taniguchi T; Radboud University, Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands.
  • Geim AK; National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan.
  • Mishchenko A; National Institute for Materials Science, 1-1 Namiki, Tsukuba 305-0044, Japan.
  • Novoselov KS; Centre for Mesoscience and Nanotechnology, University of Manchester, Oxford Road, Manchester M13 9PL, UK.
Nat Commun ; 7: 10800, 2016 Mar 10.
Article em En | MEDLINE | ID: mdl-26960435
ABSTRACT
Microelectromechanical systems, which can be moved or rotated with nanometre precision, already find applications in such fields as radio-frequency electronics, micro-attenuators, sensors and many others. Especially interesting are those which allow fine control over the motion on the atomic scale because of self-alignment mechanisms and forces acting on the atomic level. Such machines can produce well-controlled movements as a reaction to small changes of the external parameters. Here we demonstrate that, for the system of graphene on hexagonal boron nitride, the interplay between the van der Waals and elastic energies results in graphene mechanically self-rotating towards the hexagonal boron nitride crystallographic directions. Such rotation is macroscopic (for graphene flakes of tens of micrometres the tangential movement can be on hundreds of nanometres) and can be used for reproducible manufacturing of aligned van der Waals heterostructures.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Compostos de Boro / Nanoestruturas / Grafite Idioma: En Ano de publicação: 2016 Tipo de documento: Article
Texto completo
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XML
PubMed Links
Buscar no Google

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Compostos de Boro / Nanoestruturas / Grafite Idioma: En Ano de publicação: 2016 Tipo de documento: Article