Molecular Beam Epitaxy Growth of IrO2 Using Plasma-Only Oxidation: Article No. 091117

D. Sacksteder; S. Dahl; J. Dorsey; K. Yazawa; M. Holtz

doi:10.1063/5.0282709

Molecular Beam Epitaxy Growth of IrO2 Using Plasma-Only Oxidation: Article No. 091117

D. Sacksteder
, S. Dahl
, J. Dorsey
, K. Yazawa
, M. Holtz

Materials Science

Colorado School of Mines

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

Abstract

Growth of IrO2 films via molecular beam epitaxy (MBE) using an oxygen plasma as the sole oxidant is demonstrated for the first time. We investigate the oxidizing conditions required for IrO2 by characterizing the species present in the plasma using optical emission spectroscopy and comparing the thermodynamic equilibrium between Ir/IrO2 under atomic and molecular oxygen. Across the pressure range accessible, monatomic oxygen was the primary reactive species present in the plasma. IrO2 films were grown under varying Ir flux, oxygen pressure, and substrate temperature to understand growth thermodynamics and kinetics. Structural characterization assessed film phase and composition, crystallinity, strain, and surface morphology. The optimized films from this study validate plasma-only reactive growth by MBE as a successful method for growing IrO2.

Original language	American English
Number of pages	10
Journal	APL Materials
Volume	13
Issue number	9
DOIs	https://doi.org/10.1063/5.0282709
State	Published - 2025

NLR Publication Number

NREL/JA-5K00-94605

Keywords

epitaxial
iridium oxide
plasma-assisted MBE
rutile
thin film

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10.1063/5.0282709

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title = "Molecular Beam Epitaxy Growth of IrO2 Using Plasma-Only Oxidation: Article No. 091117",

abstract = "Growth of IrO2 films via molecular beam epitaxy (MBE) using an oxygen plasma as the sole oxidant is demonstrated for the first time. We investigate the oxidizing conditions required for IrO2 by characterizing the species present in the plasma using optical emission spectroscopy and comparing the thermodynamic equilibrium between Ir/IrO2 under atomic and molecular oxygen. Across the pressure range accessible, monatomic oxygen was the primary reactive species present in the plasma. IrO2 films were grown under varying Ir flux, oxygen pressure, and substrate temperature to understand growth thermodynamics and kinetics. Structural characterization assessed film phase and composition, crystallinity, strain, and surface morphology. The optimized films from this study validate plasma-only reactive growth by MBE as a successful method for growing IrO2.",

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author = "D. Sacksteder and S. Dahl and J. Dorsey and K. Yazawa and M. Holtz",

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language = "American English",

volume = "13",

journal = "APL Materials",

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T1 - Molecular Beam Epitaxy Growth of IrO2 Using Plasma-Only Oxidation

T2 - Article No. 091117

AU - Sacksteder, D.

AU - Dahl, S.

AU - Dorsey, J.

AU - Yazawa, K.

AU - Holtz, M.

PY - 2025

Y1 - 2025

N2 - Growth of IrO2 films via molecular beam epitaxy (MBE) using an oxygen plasma as the sole oxidant is demonstrated for the first time. We investigate the oxidizing conditions required for IrO2 by characterizing the species present in the plasma using optical emission spectroscopy and comparing the thermodynamic equilibrium between Ir/IrO2 under atomic and molecular oxygen. Across the pressure range accessible, monatomic oxygen was the primary reactive species present in the plasma. IrO2 films were grown under varying Ir flux, oxygen pressure, and substrate temperature to understand growth thermodynamics and kinetics. Structural characterization assessed film phase and composition, crystallinity, strain, and surface morphology. The optimized films from this study validate plasma-only reactive growth by MBE as a successful method for growing IrO2.

AB - Growth of IrO2 films via molecular beam epitaxy (MBE) using an oxygen plasma as the sole oxidant is demonstrated for the first time. We investigate the oxidizing conditions required for IrO2 by characterizing the species present in the plasma using optical emission spectroscopy and comparing the thermodynamic equilibrium between Ir/IrO2 under atomic and molecular oxygen. Across the pressure range accessible, monatomic oxygen was the primary reactive species present in the plasma. IrO2 films were grown under varying Ir flux, oxygen pressure, and substrate temperature to understand growth thermodynamics and kinetics. Structural characterization assessed film phase and composition, crystallinity, strain, and surface morphology. The optimized films from this study validate plasma-only reactive growth by MBE as a successful method for growing IrO2.

KW - epitaxial

KW - iridium oxide

KW - plasma-assisted MBE

KW - rutile

KW - thin film

U2 - 10.1063/5.0282709

DO - 10.1063/5.0282709

M3 - Article

SN - 2166-532X

VL - 13

JO - APL Materials

JF - APL Materials

IS - 9

ER -

Molecular Beam Epitaxy Growth of IrO2 Using Plasma-Only Oxidation: Article No. 091117

Abstract

NLR Publication Number

Keywords

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