Growth and characterization of ultrathin zirconia dielectrics grown by ultraviolet ozone oxidation

Shriram Ramanathan; Glen D. Wilk; David A. Muller; Chang Man Park; Paul C. McIntyre

doi:10.1063/1.1410871

Growth and characterization of ultrathin zirconia dielectrics grown by ultraviolet ozone oxidation

Shriram Ramanathan, Glen D. Wilk, David A. Muller, Chang Man Park, Paul C. McIntyre

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

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Abstract

In this letter, we report on the growth of ultrathin films of zirconia on silicon oxide and silicon oxynitride passivated (001) Si by ultraviolet ozone oxidation of Zr metal precursor layers. The oxidation kinetics has been measured using an accelerator-based nuclear reaction analysis. It was found that oxide films up to 55 Åcould be grown at room temperature by oxidation at 600 Torr while oxidation at 80 mTorr is self-limiting at 20 Å. The interfaces between the dielectric and the substrate have been characterized by scanning transmission electron microscopy. The ZrO₂ films were found to be crystalline as grown. Electrical measurements on capacitor structures with 30-Å-thick ZrO₂ films grown on native oxide on silicon show a capacitance-voltage hysteresis of 15 mV and a capacitance-based equivalent oxide thickness of 17 Åat 100 kHz.

Original language	English (US)
Pages (from-to)	2621-2623
Number of pages	3
Journal	Applied Physics Letters
Volume	79
Issue number	16
DOIs	https://doi.org/10.1063/1.1410871
State	Published - Oct 15 2001
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.1410871

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title = "Growth and characterization of ultrathin zirconia dielectrics grown by ultraviolet ozone oxidation",

abstract = "In this letter, we report on the growth of ultrathin films of zirconia on silicon oxide and silicon oxynitride passivated (001) Si by ultraviolet ozone oxidation of Zr metal precursor layers. The oxidation kinetics has been measured using an accelerator-based nuclear reaction analysis. It was found that oxide films up to 55 {\AA}could be grown at room temperature by oxidation at 600 Torr while oxidation at 80 mTorr is self-limiting at 20 {\AA}. The interfaces between the dielectric and the substrate have been characterized by scanning transmission electron microscopy. The ZrO2 films were found to be crystalline as grown. Electrical measurements on capacitor structures with 30-{\AA}-thick ZrO2 films grown on native oxide on silicon show a capacitance-voltage hysteresis of 15 mV and a capacitance-based equivalent oxide thickness of 17 {\AA}at 100 kHz.",

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T1 - Growth and characterization of ultrathin zirconia dielectrics grown by ultraviolet ozone oxidation

AU - Ramanathan, Shriram

AU - Wilk, Glen D.

AU - Muller, David A.

AU - Park, Chang Man

AU - McIntyre, Paul C.

PY - 2001/10/15

Y1 - 2001/10/15

N2 - In this letter, we report on the growth of ultrathin films of zirconia on silicon oxide and silicon oxynitride passivated (001) Si by ultraviolet ozone oxidation of Zr metal precursor layers. The oxidation kinetics has been measured using an accelerator-based nuclear reaction analysis. It was found that oxide films up to 55 Åcould be grown at room temperature by oxidation at 600 Torr while oxidation at 80 mTorr is self-limiting at 20 Å. The interfaces between the dielectric and the substrate have been characterized by scanning transmission electron microscopy. The ZrO2 films were found to be crystalline as grown. Electrical measurements on capacitor structures with 30-Å-thick ZrO2 films grown on native oxide on silicon show a capacitance-voltage hysteresis of 15 mV and a capacitance-based equivalent oxide thickness of 17 Åat 100 kHz.

AB - In this letter, we report on the growth of ultrathin films of zirconia on silicon oxide and silicon oxynitride passivated (001) Si by ultraviolet ozone oxidation of Zr metal precursor layers. The oxidation kinetics has been measured using an accelerator-based nuclear reaction analysis. It was found that oxide films up to 55 Åcould be grown at room temperature by oxidation at 600 Torr while oxidation at 80 mTorr is self-limiting at 20 Å. The interfaces between the dielectric and the substrate have been characterized by scanning transmission electron microscopy. The ZrO2 films were found to be crystalline as grown. Electrical measurements on capacitor structures with 30-Å-thick ZrO2 films grown on native oxide on silicon show a capacitance-voltage hysteresis of 15 mV and a capacitance-based equivalent oxide thickness of 17 Åat 100 kHz.

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Growth and characterization of ultrathin zirconia dielectrics grown by ultraviolet ozone oxidation

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