Band alignment at AlN/Si (111) and (001) interfaces

Sean W. King; Robert Nemanich; Robert F. Davis

doi:10.1063/1.4927515

Band alignment at AlN/Si (111) and (001) interfaces

Sean W. King, Robert Nemanich, Robert F. Davis

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

To advance the development of III-V nitride on silicon heterostructure semiconductor devices, we have utilized in-situ x-ray photoelectron spectroscopy (XPS) to investigate the chemistry and valence band offset (VBO) at interfaces formed by gas source molecular beam epitaxy of AlN on Si (001) and (111) substrates. For the range of growth temperatures (600-1050-°C) and Al pre-exposures (1-15-min) explored, XPS showed the formation of Si-N bonding at the AlN/Si interface in all cases. The AlN/Si VBO was determined to be -3.5-±-0.3-eV and independent of the Si orientation and degree of interfacial Si-N bond formation. The corresponding AlN/Si conduction band offset (CBO) was calculated to be 1.6-±-0.3-eV based on the measured VBO and band gap for wurtzite AlN. Utilizing these results, prior reports for the GaN/AlN band alignment, and transitive and commutative rules for VBOs, the VBO and CBO at the GaN/Si interface were determined to be -2.7-±-0.3 and -0.4-±-0.3-eV, respectively.

Original language	English (US)
Article number	045304
Journal	Journal of Applied Physics
Volume	118
Issue number	4
DOIs	https://doi.org/10.1063/1.4927515
State	Published - Jul 28 2015

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Band alignment at AlN/Si (111) and (001) interfaces",

abstract = "To advance the development of III-V nitride on silicon heterostructure semiconductor devices, we have utilized in-situ x-ray photoelectron spectroscopy (XPS) to investigate the chemistry and valence band offset (VBO) at interfaces formed by gas source molecular beam epitaxy of AlN on Si (001) and (111) substrates. For the range of growth temperatures (600-1050-°C) and Al pre-exposures (1-15-min) explored, XPS showed the formation of Si-N bonding at the AlN/Si interface in all cases. The AlN/Si VBO was determined to be -3.5-±-0.3-eV and independent of the Si orientation and degree of interfacial Si-N bond formation. The corresponding AlN/Si conduction band offset (CBO) was calculated to be 1.6-±-0.3-eV based on the measured VBO and band gap for wurtzite AlN. Utilizing these results, prior reports for the GaN/AlN band alignment, and transitive and commutative rules for VBOs, the VBO and CBO at the GaN/Si interface were determined to be -2.7-±-0.3 and -0.4-±-0.3-eV, respectively.",

author = "King, {Sean W.} and Robert Nemanich and Davis, {Robert F.}",

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doi = "10.1063/1.4927515",

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AU - Nemanich, Robert

AU - Davis, Robert F.

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N2 - To advance the development of III-V nitride on silicon heterostructure semiconductor devices, we have utilized in-situ x-ray photoelectron spectroscopy (XPS) to investigate the chemistry and valence band offset (VBO) at interfaces formed by gas source molecular beam epitaxy of AlN on Si (001) and (111) substrates. For the range of growth temperatures (600-1050-°C) and Al pre-exposures (1-15-min) explored, XPS showed the formation of Si-N bonding at the AlN/Si interface in all cases. The AlN/Si VBO was determined to be -3.5-±-0.3-eV and independent of the Si orientation and degree of interfacial Si-N bond formation. The corresponding AlN/Si conduction band offset (CBO) was calculated to be 1.6-±-0.3-eV based on the measured VBO and band gap for wurtzite AlN. Utilizing these results, prior reports for the GaN/AlN band alignment, and transitive and commutative rules for VBOs, the VBO and CBO at the GaN/Si interface were determined to be -2.7-±-0.3 and -0.4-±-0.3-eV, respectively.

AB - To advance the development of III-V nitride on silicon heterostructure semiconductor devices, we have utilized in-situ x-ray photoelectron spectroscopy (XPS) to investigate the chemistry and valence band offset (VBO) at interfaces formed by gas source molecular beam epitaxy of AlN on Si (001) and (111) substrates. For the range of growth temperatures (600-1050-°C) and Al pre-exposures (1-15-min) explored, XPS showed the formation of Si-N bonding at the AlN/Si interface in all cases. The AlN/Si VBO was determined to be -3.5-±-0.3-eV and independent of the Si orientation and degree of interfacial Si-N bond formation. The corresponding AlN/Si conduction band offset (CBO) was calculated to be 1.6-±-0.3-eV based on the measured VBO and band gap for wurtzite AlN. Utilizing these results, prior reports for the GaN/AlN band alignment, and transitive and commutative rules for VBOs, the VBO and CBO at the GaN/Si interface were determined to be -2.7-±-0.3 and -0.4-±-0.3-eV, respectively.

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Band alignment at AlN/Si (111) and (001) interfaces

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