C-H surface diamond field effect transistors for high temperature (400 °c) and high voltage (500V) operation

H. Kawarada; H. Tsuboi; T. Naruo; T. Yamada; D. Xu; A. Daicho; T. Saito; A. Hiraiwa

doi:10.1063/1.4884828

C-H surface diamond field effect transistors for high temperature (400 °c) and high voltage (500V) operation

H. Kawarada^*, H. Tsuboi, T. Naruo, T. Yamada, D. Xu, A. Daicho, T. Saito, A. Hiraiwa

^*この研究の対応する著者

基幹理工学部

研究成果: Article › 査読

152 被引用数 (Scopus)

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By forming a highly stable Al₂O₃ gate oxide on a C-H bonded channel of diamond, high-temperature, and high-voltage metal-oxide-semiconductor field-effect transistor (MOSFET) has been realized. From room temperature to 400°C (673K), the variation of maximum drain-current is within 30% at a given gate bias. The maximum breakdown voltage (V_B) of the MOSFET without a field plate is 600V at a gate-drain distance (L_GD) of 7. We fabricated some MOSFETs for which V_B/L_GD>100V/These values are comparable to those of lateral SiC or GaN FETs. The Al₂O₃ was deposited on the C-H surface by atomic layer deposition (ALD) at 450°C using H₂O as an oxidant. The ALD at relatively high temperature results in stable p-type conduction and FET operation at 400°C in vacuum. The drain current density and transconductance normalized by the gate width are almost constant from room temperature to 400°C in vacuum and are about 10 times higher than those of boron-doped diamond FETs.

本文言語	English
論文番号	013510
ジャーナル	Applied Physics Letters
巻	105
号	1
DOI	https://doi.org/10.1063/1.4884828
出版ステータス	Published - 2014 7月 7

ASJC Scopus subject areas

物理学および天文学（その他）

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10.1063/1.4884828

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title = "C-H surface diamond field effect transistors for high temperature (400 °c) and high voltage (500V) operation",

abstract = "By forming a highly stable Al2O3 gate oxide on a C-H bonded channel of diamond, high-temperature, and high-voltage metal-oxide-semiconductor field-effect transistor (MOSFET) has been realized. From room temperature to 400°C (673K), the variation of maximum drain-current is within 30% at a given gate bias. The maximum breakdown voltage (VB) of the MOSFET without a field plate is 600V at a gate-drain distance (LGD) of 7. We fabricated some MOSFETs for which VB/LGD>100V/These values are comparable to those of lateral SiC or GaN FETs. The Al2O3 was deposited on the C-H surface by atomic layer deposition (ALD) at 450°C using H2O as an oxidant. The ALD at relatively high temperature results in stable p-type conduction and FET operation at 400°C in vacuum. The drain current density and transconductance normalized by the gate width are almost constant from room temperature to 400°C in vacuum and are about 10 times higher than those of boron-doped diamond FETs.",

author = "H. Kawarada and H. Tsuboi and T. Naruo and T. Yamada and D. Xu and A. Daicho and T. Saito and A. Hiraiwa",

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T1 - C-H surface diamond field effect transistors for high temperature (400 °c) and high voltage (500V) operation

AU - Kawarada, H.

AU - Tsuboi, H.

AU - Naruo, T.

AU - Yamada, T.

AU - Xu, D.

AU - Daicho, A.

AU - Saito, T.

AU - Hiraiwa, A.

PY - 2014/7/7

Y1 - 2014/7/7

N2 - By forming a highly stable Al2O3 gate oxide on a C-H bonded channel of diamond, high-temperature, and high-voltage metal-oxide-semiconductor field-effect transistor (MOSFET) has been realized. From room temperature to 400°C (673K), the variation of maximum drain-current is within 30% at a given gate bias. The maximum breakdown voltage (VB) of the MOSFET without a field plate is 600V at a gate-drain distance (LGD) of 7. We fabricated some MOSFETs for which VB/LGD>100V/These values are comparable to those of lateral SiC or GaN FETs. The Al2O3 was deposited on the C-H surface by atomic layer deposition (ALD) at 450°C using H2O as an oxidant. The ALD at relatively high temperature results in stable p-type conduction and FET operation at 400°C in vacuum. The drain current density and transconductance normalized by the gate width are almost constant from room temperature to 400°C in vacuum and are about 10 times higher than those of boron-doped diamond FETs.

AB - By forming a highly stable Al2O3 gate oxide on a C-H bonded channel of diamond, high-temperature, and high-voltage metal-oxide-semiconductor field-effect transistor (MOSFET) has been realized. From room temperature to 400°C (673K), the variation of maximum drain-current is within 30% at a given gate bias. The maximum breakdown voltage (VB) of the MOSFET without a field plate is 600V at a gate-drain distance (LGD) of 7. We fabricated some MOSFETs for which VB/LGD>100V/These values are comparable to those of lateral SiC or GaN FETs. The Al2O3 was deposited on the C-H surface by atomic layer deposition (ALD) at 450°C using H2O as an oxidant. The ALD at relatively high temperature results in stable p-type conduction and FET operation at 400°C in vacuum. The drain current density and transconductance normalized by the gate width are almost constant from room temperature to 400°C in vacuum and are about 10 times higher than those of boron-doped diamond FETs.

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C-H surface diamond field effect transistors for high temperature (400 °c) and high voltage (500V) operation

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