4.8 Article

Atmospheric Oxygen Binding and Hole Doping in Deformed Graphene on a SiO2 Substrate

NANO LETTERS (2010)

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Journal

NANO LETTERS
Volume 10, Issue 12, Pages 4944-4951

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/nl1029607

Keywords

Graphene; Raman spectroscopy scanning tunneling microscopy (STM) chemical doping ripple oxygen

Categories

Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Physics, Applied Physics, Condensed Matter

Funding

  1. Columbia University by the National Science Foundation [CHE-07-01483]
  2. National Science Foundation [CHE-06-41523]
  3. Department of Energy [DE-FG0298ER-14861]
  4. New York State Office of Science Technology and Academic Research (NYSTAR)
  5. U S Department of Energy [DE-FG02-88ER13937]
  6. Air Force Office of Scientific Research [MURI FA955009 1-0705]
  7. Ministry of Education Science and Technology [2009 0089030]
  8. International Cooperation of Science and Technology (Global Research Laboratory program)
  9. Division Of Chemistry
  10. Direct For Mathematical & Physical Scien [1012058] Funding Source: National Science Foundation
  11. National Research Foundation of Korea [2009-0089030] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
  12. U.S. Department of Energy (DOE) [DE-FG02-88ER13937] Funding Source: U.S. Department of Energy (DOE)

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Using micro Raman spectroscopy and scanning tunneling microscopy we study the relationship between structural distortion and electrical hole doping of graphene on a silicon dioxide substrate The observed upshift of the Raman G band represents charge doping and not compressive strain Two independent factors control the doping (1) the degree of graphene coupling to the substrate and (2) exposure to oxygen and moisture Thermal annealing induces a pronounced structural distortion due to close coupling to SiO2 and activates the ability of diatomic oxygen to accept charge from graphene Gas flow experiments show that dry oxygen reversibly dopes graphene doping becomes stronger and more irreversible in the presence of moisture and over long periods of. time We propose that oxygen molecular anions are stabilized by water solvation and electrostatic binding to the silicon dioxide surface

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