Nonalloyed Ti/Al Ohmic contacts to <i>n</i>-type GaN using high-temperature premetallization anneal

Lester, L. F.; Brown, Judith M.; Ramer, J.; Zhang, L.; Hersee, S.D.; Zolper, J.C.

doi:10.1063/1.117695

Cited by 109 publications

(65 citation statements)

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“…The nitrogen vacancy in turn compensates the acceptor dopants at the metal/p-GaN interface. Several groups have already reported similar findings on these issues [7,8,9]. In addition, the presence of the high resistive Ni 3 N and Ni 4 N phases at the metal-semiconductor interface at the annealing temperature greater than 500 o C can also result in higher contact resistance [10].…”

Section: Resultssupporting

confidence: 64%

Contact Resistance of InGaN/GaN Light Emitting Diodes Grown on the Production Model Multi-Wafer MOVPE Reactor

Chuang

Zou

Lee

et al. 1999

MRS Internet j. nitride semicond. res.

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We report both the device fabrication and characterization of InGaN/GaN single quantum well LEDs grown on sapphire substrates using multi-wafer MOVPE reactor. To improve current spreading of the LEDs, a self-aligned process is developed to define LED mesa that is coated with a thin, semi-transparent Ni/Au (40 Å/40 Å) layer. A detailed study on the ohmic contact resistance of Ni/Cr/Au on p-GaN versus annealing temperatures is carried out on transmission line test structures. It was found that the annealing temperatures between 300 to 500 o C yield the lowest specific contact resistance r c ( 0.016 Ω-cm 2 at a current density of 66.7 mA/cm). Based on the extracted r c from the transmission line measurement, we estimate that the contact resistance of the p-type GaN accounts for ~ 88% of the total series resistance of the LED.

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Section: Resultssupporting

confidence: 64%

Contact Resistance of InGaN/GaN Light Emitting Diodes Grown on the Production Model Multi-Wafer MOVPE Reactor

Chuang

Zou

Lee

et al. 1999

MRS Internet j. nitride semicond. res.

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“…This etch is a good premetallization surface treatment for GaN n-type ohmic contacts. 25 70-nm-thick Pt films were deposited on GaN by rfmagnetron sputtering with argon in a cryopumped vacuum system of 5ϫ10 Ϫ7 Torr base pressure. The samples were then annealed in a quartz vacuum-tube furnace ͑base pressure 5ϫ10 Ϫ7 Torr͒ at various temperatures between 450 and 800°C for 30 min.…”

Section: Methodsmentioning

confidence: 99%

Thermal reaction of Pt film with 〈110〉 GaN epilayer

Gasser

Kolawa

Nicolet

1999

Journal of Vacuum Science &Amp; Technology A: Vacuum, Surfaces, and Films

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Backscattering spectrometry, x-ray diffractometry, and scanning electron microscopy have been used to study the reaction of a thin Pt film with an epilayer of ͗110͘ GaN on ͗110͘ sapphire upon annealing at 450, 550, 650, 750, and 800°C for 30 min. A Ga concentration of 2 at. % is detected by MeV 4 He ϩϩ backscattering spectrometry in the Pt layer at 550°C. By x-ray diffraction, structural changes are observed already at 450°C. At 650°C, textured Ga 2 Pt appears as reaction product. The surface morphology exhibits instabilities by the formation of blisters at 650°C and voids at 800°C.

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“…In this case, a slight decrease in r c was observed, but the contact resistance R c did not change significantly. The improvement in r c in the case of GaN layers [3] was postulated to be due to the loss of N 2 from the annealed surface, generating N vacancies and leaving the surface heavily n-type doped. In the previous work on AlGaN/GaN HFET structures [4], pre-annealing also resulted in an increase in R s , but the decrease in r c was more significant, leading to an overall decrease in R c .…”

Section: Results Of Pre-annealing Experimentsmentioning

confidence: 99%

“…Inductively coupled plasma N 2 discharges [1], or O 2 reactive ion etching [2] have been demonstrated to reduce the contact resistance in some work. Pre-annealing, prior to metal deposition, has been also shown to reduce the contact resistance for GaN [3], and also in some cases, for AlGaN/GaN HFET structures [4], although very long pre-anneals were used in the latter case.…”

mentioning

confidence: 99%

Effect of Various Pre-Treatments on Ti/Al/Ti/Au Ohmic Contacts for AlGaN/GaN HFET Devices

Bardwell

Liu

Rauhala

et al. 2001

phys. stat. sol. (a)

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The effect of a number of different treatments on the contact resistance for Ti/Al/Ti/Au (30/80/120/ 55 nm) contacts to Al 0.3 Ga 0.7 N (20 nm)/GaN HFET structures were investigated. The structures were grown by MBE. Neither preannealing of the surface at temperatures up to 1100 C in N 2 , nor etching of the surface using chemically assisted ion beam etching (CAIBE) was effective in reducing the contact resistance. Both light CAIBE etching (%5 nm) to partially remove the AlGaN layer, and deeper etching (%50 nm and 100 nm) to remove the AlGaN and contact the GaN channel layer directly, resulted in a substantial increase in the measured contact resistance. The only treatment that was found to decrease the contact resistance was a brief wet etch in K 2 S 2 O 8 /KOH solution under 254 nm UV irradiation. A resist stabilization treatment was developed so that the process was self-aligned. The contact resistance in W mm was decreased by a factor of 1.7 for the optimum etch time. Scanning electron microscopy showed that the etching resulted in the formation of discrete holes perforating the AlGaN layer.Introduction Both the rf and dc characteristics of AlGaN/GaN HFET devices are strongly dependent on the ohmic contact resistance of the source/drain contacts. Ti/Al based contact schemes (such as Ti/) have been successfully used by many workers in the fabrication of high power devices. Various schemes have been proposed to improve these ohmic contacts. Inductively coupled plasma N 2 discharges [1], or O 2 reactive ion etching [2] have been demonstrated to reduce the contact resistance in some work. Pre-annealing, prior to metal deposition, has been also shown to reduce the contact resistance for GaN [3], and also in some cases, for AlGaN/GaN HFET structures [4], although very long pre-anneals were used in the latter case.

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Nonalloyed Ti/Al Ohmic contacts to n-type GaN using high-temperature premetallization anneal

Cited by 109 publications

References 0 publications

Contact Resistance of InGaN/GaN Light Emitting Diodes Grown on the Production Model Multi-Wafer MOVPE Reactor

Contact Resistance of InGaN/GaN Light Emitting Diodes Grown on the Production Model Multi-Wafer MOVPE Reactor

Thermal reaction of Pt film with 〈110〉 GaN epilayer

Effect of Various Pre-Treatments on Ti/Al/Ti/Au Ohmic Contacts for AlGaN/GaN HFET Devices

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