Forward Current Transport in P-I-N Type GaN Ultraviolet Detector

Jinxiao Li; Zhen Liu; Sican Ye; Ao Lu; Wenyuan Hua; Ning Dang; Dawei Yan

doi:10.3788/LOP223064

[1] Guo D Y, Su Y L, Shi H Z et al. Self-powered ultraviolet photodetector with superhigh photoresponsivity (3.05 A/W) based on the GaN/Sn: Ga2O3 pn junction[J]. ACS Nano, 12, 12827-12835(2018).

[2] Huang H J, Yan D W, Wang G S et al. GaN-based p-i-n ultraviolet photodetectors with a thin p-type GaN layer on patterned sapphire substrates[J]. Chinese Optics Letters, 12, 092301(2014).

[3] Zhao Z H, Wu D, Guo J W et al. Synthesis of large-area 2D WS2 films and fabrication of a heterostructure for self-powered ultraviolet photodetection and imaging applications[J]. Journal of Materials Chemistry C, 7, 12121-12126(2019).

[4] Wang Y C, Wu C, Guo D Y et al. All-oxide NiO/Ga2O3 p-n junction for self-powered UV photodetector[J]. ACS Applied Electronic Materials, 2, 2032-2038(2020).

[5] Dai Z C, Liu Y S, Yang G F et al. Carrier transport and photoconductive gain mechanisms of AlGaN MSM photodetectors with high Al Content[J]. Chinese Optics Letters, 19, 082504(2021).

[6] Chen H Y, Chen R S, Chang F C et al. Size-dependent photoconductivity and dark conductivity of m-axial GaN nanowires with small critical diameter[J]. Applied Physics Letters, 95, 143123(2009).

[7] Xu T, Jiang M M, Wan P et al. Bifunctional ultraviolet light-emitting/detecting device based on a SnO2 microwire/p-GaN heterojunction[J]. Photonics Research, 9, 2475-2485(2021).

[8] Wang J X, Chu C S, Tian K K et al. Polarization assisted self-powered GaN-based UV photodetector with high responsivity[J]. Photonics Research, 9, 734-740(2021).

[9] Cao Z K, Liu Z S, Jiang D S et al. Fabrication of high gain GaN based PIN avalanche diode and estimation of p-GaN layer carrier concentration[J]. Chinese Journal of Luminescence, 41, 707-713(2020).

[10] Kalra A, Rathkanthiwar S, Muralidharan R et al. Material-to-device performance correlation for AlGaN-based solar-blind p-i-n photodiodes[J]. Semiconductor Science and Technology, 35, 035001(2020).

[11] Butun B, Tut T, Ulker E et al. High-performance visible-blind GaN-based p-i-n photodetectors[J]. Applied Physics Letters, 92, 033507(2008).

[12] Wang G S, Lu H, Chen D J et al. High quantum efficiency GaN-based p-i-n ultraviolet photodetectors prepared on patterned sapphire substrates[J]. IEEE Photonics Technology Letters, 25, 652-654(2013).

[13] Xie F, Yang G F, Wang J et al. Metal-semiconductor-metal Ultraviolet Photodiodes Fabricated on Bulk GaN Substrate[J]. Advanced Materials Research, 986/987, 160-163(2014).

[14] You K, Song H, Li D B et al. Electrical and optoelectronics characteristics of GaN based MIS photo-detectors[J]. Chinese Journal of Luminescence, 33, 55-60(2012).

[15] Zhao L N, Chen L L, Yu G H et al. Tunneling-hopping transport model for reverse leakage current in InGaN/GaN blue light-emitting diodes[J]. IEEE Photonics Technology Letters, 29, 1447-1450(2017).

[16] Chen L L, Jin N, Yan D W et al. Charge transport in vertical GaN Schottky barrier diodes: a refined physical model for conductive dislocations[J]. IEEE Transactions on Electron Devices, 67, 841-846(2020).

[17] YanD W, TianK K, YanX H et al. Forward current transport and noise behavior of GaN Schottky diodes[J]. Acta Physica Sinica, 70, 362-368(2021).

[18] Yan D W, Lu H, Chen D J et al. Forward tunneling current in GaN-based blue light-emitting diodes[J]. Applied Physics Letters, 96, 083504(2010).

[19] Sze S M, Ng K K[M]. Physics of semiconductor devices, 176-429(2007).

[20] Park J H, Kim J K, Cho J. Observation of space-charge-limited current in AlGaN/GaN ultraviolet light-emitting diodes[J]. Materials Letters, 214, 217-219(2018).

[21] Mott N F[M]. RW gurney electronic processes in ionic crystals(1940).

[22] Rose A. Space-charge-limited currents in solids[J]. Physical Review, 97, 1538-1544(1955).