【Device Papers】Ge-Doping-Induced Phase Engineering of β/ε-Ga₂O₃ for High-Performance Ultraviolet Detector

      Researchers from Shandong University have published a dissertation titled " Ge-Doping-Induced Phase Engineering of β/ε-Ga₂O₃ for High-Performance Ultraviolet Detector " in Journal of Materials Chemistry C.

Abstract

      Solar-blind deep-ultraviolet (DUV) photodetectors based on intrinsic Ga₂O₃ typically suffer from a trade-off between low responsivity and high dark current due to poor carrier transport and high defect densities. To overcome these bottlenecks, this work utilizes mist chemical vapor deposition (Mist-CVD) to fabricate Ge-doped Ga₂O₃ films, successfully constructing a high-quality β/ε heterophase homojunctions. Ge incorporation effectively relaxes lattice strain, suppresses cation vacancies, and restores the Ga/O stoichiometry to a near-ideal ratio. Crucially, the induced β/ε interface naturally forms a Type-II staggered band alignment with a strong built-in electric field. This architecture suppresses dark current via a high potential barrier while enabling a giant photoconductive gain through a hole-trapping-induced photogating effect under illumination. Consequently, the Ge-doped MSM photodetector exhibits superior performance, maintaining a low dark current of 10⁻¹⁰ A (@ 50V). Notably, it achieves a peak responsivity of 160 A/W(@ 40V), a specific detectivity of 4.81×10¹⁴ Jones, and a PDCR of 2.3×10⁵, representing a significant enhancement of four orders of magnitude compared to the undoped counterpart. These results validate Ge-induced phase engineering as a promising strategy for developing high-sensitivity, low-noise DUV sensing applications.

DOI：

https://doi.org/10.1039/D6TC00506C