Local atomic and electronic structure of boron chemical doping in monolayer graphene.

نویسندگان

  • Liuyan Zhao
  • Mark Levendorf
  • Scott Goncher
  • Theanne Schiros
  • Lucia Pálová
  • Amir Zabet-Khosousi
  • Kwang Taeg Rim
  • Christopher Gutiérrez
  • Dennis Nordlund
  • Cherno Jaye
  • Mark Hybertsen
  • David Reichman
  • George W Flynn
  • Jiwoong Park
  • Abhay N Pasupathy
چکیده

We use scanning tunneling microscopy and X-ray spectroscopy to characterize the atomic and electronic structure of boron-doped and nitrogen-doped graphene created by chemical vapor deposition on copper substrates. Microscopic measurements show that boron, like nitrogen, incorporates into the carbon lattice primarily in the graphitic form and contributes ~0.5 carriers into the graphene sheet per dopant. Density functional theory calculations indicate that boron dopants interact strongly with the underlying copper substrate while nitrogen dopants do not. The local bonding differences between graphitic boron and nitrogen dopants lead to large scale differences in dopant distribution. The distribution of dopants is observed to be completely random in the case of boron, while nitrogen displays strong sublattice clustering. Structurally, nitrogen-doped graphene is relatively defect-free while boron-doped graphene films show a large number of Stone-Wales defects. These defects create local electronic resonances and cause electronic scattering, but do not electronically dope the graphene film.

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عنوان ژورنال:
  • Nano letters

دوره 13 10  شماره 

صفحات  -

تاریخ انتشار 2013