Local Electronic Properties of Graphene on a BN Substrate via Scanning Tunneling Microscopy

Decker, Regis; Wang, Yang; Brar, Victor W.; Regan, William; Tsai, Hsin-zon; Wu, Qiong; Gannett, William; Zettl, Alex; Crommie, Michael F.

Local Electronic Properties of Graphene on a BN Substrate via Scanning Tunneling Microscopy

Active / Technical Report | Accession Number: ADA571863 |

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Abstract:

The use of boron nitride BN as a substrate for graphene nanodevices has attracted much interest since the recent report that BN greatly improves the mobility of charge carriers in graphene compared to standard SiO2 substrates. We have explored the local microscopic properties of graphene on a BN substrate using scanning tunneling microscopy. We find that BN substrates result in extraordinarily flat graphene layers that display microscopic Moir e patterns arising from the relative orientation of the graphene and BN lattices. Gate-dependent dIdV spectra of graphene on BN exhibit spectroscopic features that are sharper than those obtained for graphene on SiO2. We observe a significant reduction in local microscopic charge inhomogeneity for graphene on BN compared to graphene on SiO2.

Author(s):

Decker, Regis ; Wang, Yang ; Brar, Victor W. ; Regan, William ; Tsai, Hsin-zon ; Wu, Qiong ; Gannett, William ; Zettl, Alex ; Crommie, Michael F.

Author Organization(s):

CALIFORNIA UNIV BERKELEY DEPT OF PHYSICS

Descriptive Note:

Journal article

Supplementary Note:

Published in Nano Letters, v11 p2291-2295, 9 May 2011. Sponsored in part by DoE and NSF DMR-0906539.

Pagination:

0006

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:

Approved For Public Release

Distribution Statement:

Approved For Public Release; Distribution Is Unlimited.

RECORD

Collection: TR

Identifying Numbers

Contract/Grant Number(s):

N00014-09-1-1066, DE-AC03-76SF0098

Monitor Series:

ONR

Subject Terms

Joint Capability Areas:

JCA_6.3.3_Spectrum Management; JCA_6_Net Centric; JCA_6.3_Net Management; JCA_1_Force Support; JCA_1.3_Human Capital Management; JCA_8_Building Partnerships

Modernization Areas:

Microelectronics

Communities of Interest:

No COI(s) Identified

Descriptor(s):

*BORON NITRIDES, *GRAPHENE, *MICROSCOPY, *TUNNELING(ELECTRONICS), CHARGE DENSITY, FOURIER TRANSFORMATION, LAYERS, NANOTECHNOLOGY, REPRINTS, SUBSTRATES, SURFACE ROUGHNESS

Field(s)/Group(s):

Inorganic Chemistry, Optics, Solid State Physics

Keyword(s):

MOIRE PATTERNS, STM(SCANNING TUNNELING MICROSCOPY), GRAPHENE LAYERS, BN(BORON NITRIDE), *ELECTRONIC PROPERTIES, NANODEVICES, DIRAC POINT ENERGY, FERMI ENERGY

Report Date:

2011 May 09

Creation Date:

2013 Apr 15