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Ultra-wide bandgap semiconductor Ga2O3 power diodes

Author

Listed:
  • Jincheng Zhang

    (Xidian University)

  • Pengfei Dong

    (Xidian University)

  • Kui Dang

    (Xidian University)

  • Yanni Zhang

    (Xidian University)

  • Qinglong Yan

    (Xidian University)

  • Hu Xiang

    (Xidian University)

  • Jie Su

    (Xidian University)

  • Zhihong Liu

    (Xidian University)

  • Mengwei Si

    (Shanghai Jiao Tong University)

  • Jiacheng Gao

    (University of Electronic Science and Technology of China)

  • Moufu Kong

    (University of Electronic Science and Technology of China)

  • Hong Zhou

    (Xidian University)

  • Yue Hao

    (Xidian University)

Abstract

Ultra-wide bandgap semiconductor Ga2O3 based electronic devices are expected to perform beyond wide bandgap counterparts GaN and SiC. However, the reported power figure-of-merit hardly can exceed, which is far below the projected Ga2O3 material limit. Major obstacles are high breakdown voltage requires low doping material and PN junction termination, contradicting with low specific on-resistance and simultaneous achieving of n- and p-type doping, respectively. In this work, we demonstrate that Ga2O3 heterojunction PN diodes can overcome above challenges. By implementing the holes injection in the Ga2O3, bipolar transport can induce conductivity modulation and low resistance in a low doping Ga2O3 material. Therefore, breakdown voltage of 8.32 kV, specific on-resistance of 5.24 mΩ⋅cm2, power figure-of-merit of 13.2 GW/cm2, and turn-on voltage of 1.8 V are achieved. The power figure-of-merit value surpasses the 1-D unipolar limit of GaN and SiC. Those Ga2O3 power diodes demonstrate their great potential for next-generation power electronics applications.

Suggested Citation

  • Jincheng Zhang & Pengfei Dong & Kui Dang & Yanni Zhang & Qinglong Yan & Hu Xiang & Jie Su & Zhihong Liu & Mengwei Si & Jiacheng Gao & Moufu Kong & Hong Zhou & Yue Hao, 2022. "Ultra-wide bandgap semiconductor Ga2O3 power diodes," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31664-y
    DOI: 10.1038/s41467-022-31664-y
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    Cited by:

    1. Feng Zhou & Hehe Gong & Ming Xiao & Yunwei Ma & Zhengpeng Wang & Xinxin Yu & Li Li & Lan Fu & Hark Hoe Tan & Yi Yang & Fang-Fang Ren & Shulin Gu & Youdou Zheng & Hai Lu & Rong Zhang & Yuhao Zhang & Ji, 2023. "An avalanche-and-surge robust ultrawide-bandgap heterojunction for power electronics," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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