Impact of in situ NH<sub>3</sub> pre-treatment of LPCVD SiN passivation on GaN HEMT performance

Chen, Ding-Yuan; Persson, Axel R.; Wen, Kai Hsin; Sommer, Daniel; Gruenenpuett, J.; Blanck, H.; Thorsell, Mattias; Kordina, Olof; Darakchieva, Vanya; Persson, Per; Chen, Jr-Tai; Rorsman, Niklas

doi:10.1088/1361-6641/ac4b17

Cited by 13 publications

(7 citation statements)

References 28 publications

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“…The wafers were diced into 16 × 16 mm 2 samples and subsequently cleaned using RCA-1 and RCA-2 followed by diluted NH 4 OH to eliminate organic, metallic contaminants, and oxide. A passivation-first process was conducted by performing in-situ NH 3 pretreatment, followed by a 60 nm SiN deposition with low-pressure chemical vapor deposition (LPCVD) [23].…”

Section: Methodsmentioning

confidence: 99%

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Chen,

Persson,

Darakchieva

et al. 2023

Semicond. Sci. Technol.

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This study presents a novel approach to forming low-resistance ohmic contacts for AlGaN/GaN HEMTs. The optimized contacts exhibit an outstanding contact resistance of approximately 0.15 Ω·mm. This is achieved by firstly recessing the barrier of the heterostructure to a depth beyond the channel. In this way, the channel region is exposed on the sidewall of the recess. The coverage of the Ti/Al/Ti ohmic metalization on the sidewall is ensured through tilting of the sample during evaporation. The annealing process is performed at a low temperature of 550 °C. The approach does not require precise control of the recess etching. Furthermore, the method is directly applicable to most barrier designs in terms of thickness and Al-concentration. The impact of recessed sidewall angle, thickness and ratio of Ti and Al layers, and the annealing procedure are investigated. Structural and chemical analyses of the interface between the ohmic contacts and epi-structure indicate the formation of ohmic contacts by the extraction of nitrogen from the epi-structure. The approach is demonstrated on HEMT-structures with two different barrier designs in terms of Al-concentration and barrier thickness. The study demonstrate large process window in regard to recess depth and duration of the annealing as well as high uniformity of the contact resistance across the samples, rendering the approach highly suitable for industrial production processes.

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Section: Methodsmentioning

confidence: 99%

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Chen,

Persson,

Darakchieva

et al. 2023

Semicond. Sci. Technol.

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“…For the HEMTs fabrication, a “passivation‐first” process scheme was applied with an in situ NH 3 pretreatment, to reduce surface native oxide and minimize surface‐related trapping effects, [ 20 ] followed by a deposition of 60 nm SiN passivation layer with low‐pressure chemical vapor deposition. The device isolation was achieved through mesa etching with a depth of ≈120 nm below 2DEG.…”

Section: Methodsmentioning

confidence: 99%

“…The pulse width was 1 μs with a duty cycle of 0.001%. The quiescent bias points (V GSQ , V DSQ ) were set at [(0, 0), (V poÀ 3, 0), (V poÀ 3,20), and (V poÀ 3, 25) V], denoted as [Q ref , Q 0 , Q 20 , and Q 25 ]. I ds-knee is defined at the knee where RF load-line is swinged of each I DS curve, marked with black dots in Figure 3.…”

Section: Pulsed IVmentioning

confidence: 99%

Impact of the Channel Thickness on Electron Confinement in MOCVD‐Grown High Breakdown Buffer‐Free AlGaN/GaN Heterostructures

Chen¹,

Wen²,

Thorsell

et al. 2022

Physica Status Solidi (a)

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The 2D electron gas (2DEG) confinement on high electron mobility transistor (HEMT) heterostructures with a thin undoped GaN channel layer on the top of a grain‐boundary‐free AlN nucleation layer is studied. This is the first time demonstration of a buffer‐free epi‐structure grown with metal–organic chemical vapor deposition with thin GaN channel thicknesses, ranging from 250 to 150 nm, without any degradation of the structural quality and 2DEG properties. The HEMTs with a gate length of 70 nm exhibit good DC characteristics with peak transconductances of 500 mS mm−1 and maximum saturated drain currents above 1 A mm−1. A thinner GaN channel layer improves 2DEG confinement because of the enhanced effectiveness of the AlN nucleation layer acting as a back‐barrier. An excellent drain‐induced barrier lowering of only 20 mV V−1 at a VDS of 25 V and an outstanding critical electric field of 0.95 MV cm−1 are demonstrated. Good large‐signal performance at 28 GHz with output power levels of 2.0 and 3.2 W mm−1 and associated power‐added efficiencies of 56% and 40% are obtained at a VDS of 15 and 25 V, respectively. These results demonstrate the potential of sub‐100 nm gate length HEMTs on a buffer‐free GaN‐on‐SiC heterostructure.

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“…SiNx film is widely used as a classic gate dielectric in AlGaN/GaN MIS-HEMTs, which can be deposited by various methods such as inductively coupled plasma chemical vapor deposition, plasma enhanced chemical vapor deposition, * Author to whom any correspondence should be addressed. and low-pressure chemical vapor deposition (LPCVD) [4][5][6]. Among of these methods, LPCVD can obtain higher quality of SiNx insulating dielectric and SiN/AlGaN interface due to depositing temperature exceeding 700 • C [7,8].…”

Section: Gan-basedmentioning

confidence: 99%

Low-temperature characteristics and gate leakage mechanisms of LPCVD-SiNx/AlGaN/GaN MIS-HEMTs

Guo¹,

Shao²,

Bai³

et al. 2022

J. Phys. D: Appl. Phys.

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In this paper, we systematically investigated the static properties and gate current mechanism of LPCVD-SiNx/AlGaN/GaN MIS-HEMTs at cryogenic temperature range from 10 K to 300 K. It is found that the threshold voltage of the device shows a positive shift due to the increased intrinsic carrier concentration at low temperature, and both the maximum transconductance and ON-resistance are improved at the low temperatures because of the enhanced electron mobility. Under very low electric field, the gate leakage exhibits ohmic conduction. With increasing forward gate bias, the dominant gate leakage mechanism at temperature below150 K gradually transits into trap-assisted tunneling, participating with a deep trap energy level of 0.73 eV in the SiNx dielectric, to Fowler–Nordheim (FN) tunneling. In contrast, the dominant gate leakage mechanism at temperature above 150 K transits from Poole–Frenkel emission, showing a low trap barrier height of 56 meV in the SiNx dielectric, to Fowler–FN tunneling with increasing forward gate bias. Under high reverse gate bias, carrier-limited gate current becomes the dominated gate leakage mechanism.

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Impact of in situ NH₃ pre-treatment of LPCVD SiN passivation on GaN HEMT performance

Cited by 13 publications

References 28 publications

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Impact of the Channel Thickness on Electron Confinement in MOCVD‐Grown High Breakdown Buffer‐Free AlGaN/GaN Heterostructures

Low-temperature characteristics and gate leakage mechanisms of LPCVD-SiNx/AlGaN/GaN MIS-HEMTs

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Impact of in situ NH3 pre-treatment of LPCVD SiN passivation on GaN HEMT performance

Cited by 13 publications

References 28 publications

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Structural investigation of ultra-low resistance deeply recessed sidewall ohmic contacts for AlGaN/GaN HEMTs based on Ti/Al/Ti-metallization

Impact of the Channel Thickness on Electron Confinement in MOCVD‐Grown High Breakdown Buffer‐Free AlGaN/GaN Heterostructures

Low-temperature characteristics and gate leakage mechanisms of LPCVD-SiNx/AlGaN/GaN MIS-HEMTs

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Impact of in situ NH₃ pre-treatment of LPCVD SiN passivation on GaN HEMT performance