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The electrical characteristics of a 4H-silicon carbide metal-insulator-semiconductor structure with Al_2O_3 as the gate dielectric 被引量:1

The electrical characteristics of a 4H-silicon carbide metal-insulator-semiconductor structure with Al_2O_3 as the gate dielectric
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摘要 A 4H-silicon carbide metal-insulator-semiconductor structure with ultra-thin Al2O3 as the gate dielectric, deposited by atomic layer deposition on tile epitaxial layer of a 4H-SiC (0001) 80N-/N+ substrate, has been fabricated. The experimental results indicate that the prepared ultra-thin Al2O3 gate dielectric exhibits good physical and electrical characteristics, including a high breakdown electrical field of 25 MV/cm, excellent interface properties (1 × 10^14 cm^-2) and low gate-leakage current (IG = 1 × 10^-3 A/cm 2@Eox = 8 MV/cm). Analysis of the current conduction mecha- nism on the deposited Al2O3 gate dielectric was also systematically performed. The confirmed conduction mechanisms consisted of Fowler-Nordheim (FN) tuaneling, the Frenkel-Poole mechanism, direct tunneling and Schottky emission, and the dominant current conduction mechanism depends on the applied electrical field. When the gate leakage current mechanism is dominated by FN tunneling, the barrier height of SiC/Al2O3 is 1.4 eV, which can meet the requirements of silicon carbide metal-insulator-semiconductor transistor devices. A 4H-silicon carbide metal-insulator-semiconductor structure with ultra-thin Al2O3 as the gate dielectric, deposited by atomic layer deposition on tile epitaxial layer of a 4H-SiC (0001) 80N-/N+ substrate, has been fabricated. The experimental results indicate that the prepared ultra-thin Al2O3 gate dielectric exhibits good physical and electrical characteristics, including a high breakdown electrical field of 25 MV/cm, excellent interface properties (1 × 10^14 cm^-2) and low gate-leakage current (IG = 1 × 10^-3 A/cm 2@Eox = 8 MV/cm). Analysis of the current conduction mecha- nism on the deposited Al2O3 gate dielectric was also systematically performed. The confirmed conduction mechanisms consisted of Fowler-Nordheim (FN) tuaneling, the Frenkel-Poole mechanism, direct tunneling and Schottky emission, and the dominant current conduction mechanism depends on the applied electrical field. When the gate leakage current mechanism is dominated by FN tunneling, the barrier height of SiC/Al2O3 is 1.4 eV, which can meet the requirements of silicon carbide metal-insulator-semiconductor transistor devices.
作者 刘莉 杨银堂 马晓华
机构地区 School of Microelectronics Key Laboratory of Wide Band Gap Semiconductor Materials and Devices of Ministry of Education School of Technical Physics
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2011年第12期366-372,共7页 中国物理B(英文版)
基金 supported by the 2010 School Fundamental Scientific Research Fund of Xidian University (Grant No. K50510250008)
关键词 AL2O3 4H-silicon carbide metal-insulator-semiconductor capacitor gate leakage current C-V characteristics Al2O3, 4H-silicon carbide, metal-insulator-semiconductor capacitor, gate leakage current, C-V characteristics
分类号 TN303 [电子电信—物理电子学] TF748.41 [冶金工程—钢铁冶金]
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参考文献19

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同被引文献8

  • 1ZHOU Wei cheng, ZHONG Xue qian, SHENG Kuang. High temperature stability and the performance degradation of SiC MOSFET [J]. IEEE Transaction On Power Electronics, 2014, 29(5): 2329-2337.
  • 2FIORENZA P, SWANSON L K, VIVONA M. Comparative study of gate oxide in 4H SiC lateral MOSFETs subjected to post deposition annealing in N2O and POCl3[J]. Applied Physics A: Material Science. and Processing,2013: 1-7.
  • 3ROCCAFORTER F, FIORENZA P, GIANNAZZO F. Impact of the morphological and electrical properties of SiO2/4H SiC interfaces on the behavior of 4H SiC MOSFET[J].ECS Journal of Solid State Science and Technology, 2013, 2(8): N3006-N3011.
  • 4FIORENZA P, GIANNAZZO F, SWANSON L. A look underneath the SiO2/4H SiC interface after N2O thermal treatments[J]. Beilstein Journal of Nanotechnology,2013, 4: 249-254.
  • 5NAIK H K. TANG T P. Chow, Effect of Graphite cap for implant activation on inversion channel mobility in 4H SiC mosfet[J]. Material Science Forum, 2009: 615617: 773-776.
  • 6KHANNA V K. Physics of carrier transport mechanisms and ultra small scale phenomena for theoretical modeling of nanometer MOS transistors from diffusive to ballistic regimes of operation[J], Physics Reports, 2004: 398, 67.
  • 7LIU GANG, XU YI, XU CAN. Effects and mechanisms of RIE on SiC inversion layer mobility and its recovery[J]. Applied Surface Science, 2015, 324: 30-34.
  • 8DHAR S, HANEY S, CHENG L. Inversion layer carrier concentration and mobility in 4H SiC metal oxide semiconductor field effect transistors [J]. Journal of Applied Physics: 2007: 556-557: 835.

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Chinese Physics B
2011年 第12期

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