2014
DOI: 10.1016/j.physb.2013.10.063
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Implementation of an AlGaN-based solar-blind UV four-quadrant detector

Abstract: An AlGaN-based front illuminated intrinsically solar-blind ultraviolet four-quadrant Schottky detector was fabricated and characterized. A layered ohmic structure was deposited followed by a multi-step annealing method. Ultraviolet transmissive iridium oxide was used as the Schottky barrier material and formed by a two-step annealing method. Au contacts were deposited on the Schottky contacts and annealed. The detector was mounted onto a commercial chip carrier and wires were epoxy bonded from the ohmic and Au… Show more

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Cited by 19 publications
(9 citation statements)
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“…Additionally, AlGaN exhibits a high specific detectivity approximately 10 12 cm Hz 1/2 W −1 33 . Based on these outstanding optoelectronic characteristics, AlGaN ternary alloys exhibit marked advantages in promoting the evolution of UV photodetectors (PDs), particularly in fabricating intrinsic solar-blind UV detectors 34 , 35 .…”
Section: Introductionmentioning
confidence: 99%
“…Additionally, AlGaN exhibits a high specific detectivity approximately 10 12 cm Hz 1/2 W −1 33 . Based on these outstanding optoelectronic characteristics, AlGaN ternary alloys exhibit marked advantages in promoting the evolution of UV photodetectors (PDs), particularly in fabricating intrinsic solar-blind UV detectors 34 , 35 .…”
Section: Introductionmentioning
confidence: 99%
“…For instance, AlGaN-based SB four-quadrant Schottky photodiodes were fabricated by depositing Au contacts. 68 The cut-off wavelength for each quadrant was (275) nm, with a responsivity of 28 mA W −1 and quantum efficiency of 14% at 250 nm. In another study, Schottky photodiodes made of indium–silicon co-doped Al x Ga 1− x N with a high mobility and Hall electron concentration of 40 cm 2 V −1 s −1 and 8 × 10 17 cm −3 , respectively, yielded a responsivity of 0.033 A W −1 at 275 nm.…”
Section: Algan Materialsmentioning
confidence: 99%
“…Wide bandgap semiconductor based ultraviolet (UV) photodiodes have attracted significant interest compared with UV photodiodes based on narrow bandgap semiconductors due to their high quantum efficiency, enhanced photocurrent gain and large UV/visible rejection ratio [1][2][3][4][5]. Wide bandgap semiconductor nanostructures such as nanorods are promising for the improvement of UV photodiodes since they have a large surface area to volume ratio which leads to high internal photoconductivity gain due to the surface enhanced electron-hole separation efficiency [6,7].…”
Section: Introductionmentioning
confidence: 99%