Gallium oxide (Ga2O3) is a representative of ultra-wide bandgap semiconductor, with a bandgap of about 4.9 eV. In addition to a large dielectric constant, excellent physical and chemical stability, Ga2O3 has a breakdown electric field strength of more than 8 MV/cm, which is 27 times than that of Si and about twice larger than that of SiC and GaN. It is guaranteed that Ga2O3 has irreplaceable applications in ultra-high power (1-10 kW) electronic devices. Unfortunately, due to the difficulty of p-type doping of Ga2O3, only unipolar Ga2O3power Schottky diodes are feasible, but substantial progress has been made in recent years. In this article, we review the advanced progresses and important achievements of the state-of-the-arts Ga2O3 based power SBDs, and provide staged guidance for the further development of Ga2O3 power devices. The multiple type of device architectures, including basic structure, edge terminal processing, field plated, trench and heterojunction p-n structure, will be
A practical method for organic–inorganic hybrid heterojunction photodetector by spin-coating the cobalt phthalocyanine (CoPc) solution onto the β-gallium oxide (β-Ga2O3) film is available to realize the sensitive detection of ultraviolet light signals. We have carefully measured and calculated the optoelectronic performance of the prepared device. The device demonstrates excellent rectification characteristics under different light intensities, and the rectification ratio reaches 144.96 under 900 μW/cm2 at ±5 V. Benefiting from the construction of CoPc/Ga2O3 heterojunction, the device shows an extremely low dark current of 5.73 fA, a high detectivity of 1.92 × 1017 Jones, a responsivity of 18.4 mA/W, and a high light-to-dark current ratio of 3.76 × 106. In addition, the intrinsic physical mechanism of the device is investigated through the energy band diagram under different conditions. The device is equipped with the possibility to work under self-powered mode and has good stability in the air environment.
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