Zhenguang Shao scite author profile

Half-metallicity rising from the s/p electrons has been one of the hot topics in spintronics. Based on the first-principles of calculation, we explore the magnetic properties of the B-doped graphitic heptazine carbon nitride (gh-C3N4) system. Ferromagnetism is observed in the B-doped gh-C3N4 system. Interestingly, its ground state phase (BC1@gh-C3N4) presents a strong half-metal property. Furthermore, the half-metallicity in BC1@gh-C3N4 can sustain up to 5% compressive strain and 1.5% tensile strain. It will lose its half-metallicity, however, when the doping concentration is below 6.25%. Our results show that such a metal-free half-metallic system has promising spintronic applications.

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Ionization-Enhanced AlGaN Heterostructure Avalanche Photodiodes

Shao

Yang

You

et al. 2017

IEEE Electron Device Lett.

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Nanoplasmonically Enhanced High-Performance Metastable Phase α-Ga₂O₃ Solar-Blind Photodetectors

Qiao

Cai

et al. 2019

ACS Appl. Mater. Interfaces

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In this work, nanoplasmonically enhanced α-Ga2O3 solar-blind photodetectors with an interdigital structure were fabricated on sapphire. By introducing Al nanoparticles (NPs) onto the device surface, the photodetector obtained a significant increase in responsivity at the solar-blind region, and the response peak located at 244 nm reached 3.36 A/W under an applied voltage of 5 V. Compared with the responsivity at 320 nm, the response ratio exceeds 240, demonstrating a superior solar-blind cut-off edge. It also presents that the photocurrent was dramatically increased under 254 nm ultraviolet irradiation for the enhanced device while the dark current remains below 1 pA at 20 V. To explicitly elucidate the enhancement effects by Al NPs under ultraviolet illumination, Kelvin probe force microscopy was employed and directly revealed the physical mechanism of surface plasmon oscillation, which promoted the formation of localized electric fields on α-Ga2O3. In addition, we illustrated the effects of interdigital spacing on device performances through experimental measurements and theoretical calculations. These results not only provide direct evidences for Al nanoplasmonic enhancement on the α-Ga2O3 device but also facilitate design and fabrication of solar-blind photodetectors.

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Zhenguang Shao

High-Gain AlGaN Solar-Blind Avalanche Photodiodes

Metal-Free Half-Metallicity in B-Doped gh-C3N4 Systems

Ionization-Enhanced AlGaN Heterostructure Avalanche Photodiodes

Nanoplasmonically Enhanced High-Performance Metastable Phase α-Ga₂O₃ Solar-Blind Photodetectors

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Zhenguang Shao

High-Gain AlGaN Solar-Blind Avalanche Photodiodes

Metal-Free Half-Metallicity in B-Doped gh-C3N4 Systems

Ionization-Enhanced AlGaN Heterostructure Avalanche Photodiodes

Nanoplasmonically Enhanced High-Performance Metastable Phase α-Ga2O3 Solar-Blind Photodetectors

Contact Info

Product

Resources

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Nanoplasmonically Enhanced High-Performance Metastable Phase α-Ga₂O₃ Solar-Blind Photodetectors