Fabrication of Ohmic Contact on N-Type SiC by Laser Annealed Process: A Review

Li, Guo; Xu, M.; Zou, De Gao; Cui, Yingxin; Zhong, Yu; Cui, Peng; Cheong, Kuan Yew; Xia, Jinbao; Nie, Hongkun; Li, Shuqiang; Linewih, Handoko; Yan, Bingzheng; Xu, Xiangang; Han, Jisheng

doi:10.3390/cryst13071106

Cited by 7 publications

(3 citation statements)

References 30 publications

(57 reference statements)

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“…In addition to its robust thermal conductivity, electric breakdown voltage, and current density, SiC can operate over a broad temperature range without undergoing degradation in its monocrystalline structure or phase transitions. Through doping, the semiconductor properties of SiC can be tailored to yield both n-type and p-type materials [36,37]. These defects have been reported to impede the electrical and mechanical properties of the material, as corroborated by extensive studies [38,39].…”

Section: Introductionmentioning

confidence: 95%

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Suchikova,

Kovachov,

Bohdanov

et al. 2023

Technologies

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This article presents an enhanced method for synthesizing β-SiC on a silicon substrate, utilizing porous silicon as a buffer layer, followed by thermal carbide formation. This approach ensured strong adhesion of the SiC film to the substrate, facilitating the creation of a hybrid hetero-structure of SiC/por-Si/mono-Si. The surface morphology of the SiC film revealed islands measuring 2–6 μm in diameter, with detected micropores that were 70–80 nm in size. An XRD analysis confirmed the presence of spectra from crystalline silicon and crystalline silicon carbide in cubic symmetry. The observed shift in spectra to the low-frequency zone indicated the formation of nanostructures, correlating with our SEM analysis results. These research outcomes present prospects for the further utilization and optimization of β-SiC synthesis technology for electronic device development.

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Section: Introductionmentioning

confidence: 95%

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Suchikova,

Kovachov,

Bohdanov

et al. 2023

Technologies

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“…Forming ohmic contacts requires high-temperature annealing, which activates the implanted dopants and forms silicide layers in traditional silicon ohmic contacts [8]. Recent advances in annealing, such as laser thermal annealing (LTA), have resulted in superior ohmic contacts for 4H-SiC-based devices [9] and up to 16% reduction in contact resistivity for Sub-10 nm FinFETs [10]. Improved models for ohmic contacts would be valuable in guiding future process refinements.…”

Section: Introductionmentioning

confidence: 99%

Resistor-to-Schottky barrier analytical model for ohmic contact test structures

Pham,

Tran,

Partridge

et al. 2024

Semicond. Sci. Technol.

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Analytical models for investigating Metal-Semiconductor (M-S) ohmic contacts in test structures have conventionally included resistive-only contact interfaces. Given that M-S contacts are fundamentally governed by electron tunnelling across the potential energy barrier at the M-S interface, this simplified approach may result in misinterpretation. This paper describes, in detail, a novel Resistor-to-Schottky (RSB) barrier analytical model that enables a more in-depth exploration of the physics underlying ohmic contacts. The proposed model is analysed and compared with models constructed using the semiconductor device simulator tool TCAD. The study reveals significant differences in outcomes when employing the RSB model rather than the conventional Transmission Line (TLM) model and contributes to a more comprehensive understanding of M-S ohmic contacts in test structures.

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“…Laser thermal annealing is an ultrafast and low thermal budget process solution for the passivation of backside illuminated sensors and power devices. Laser annealing can be a solution for the backside contact of those chips with a vertical flow of electrical current, where an ohmic contact and/or collector on the wafer backside are required [9,10], including SiC power Metal-Oxide-Semiconductor Field Effect Transistors (MOSFET) [11], Insulated Gate Bipolar Transistor (IGBT) [12], and high voltage diodes [13,14]. Moreover, this process can also be useful for the ohmic contact formation process in SiC Schottky diodes, causing a negligible impact on the device's front side [15,16].…”

Section: Introductionmentioning

confidence: 99%

Silicon and Silicon Carbide Recrystallization by Laser Annealing: A Review

Arduino,

Stassi,

Spano

et al. 2023

Materials

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Modifying material properties within a specific spatial region is a pivotal stage in the fabrication of microelectronic devices. Laser annealing emerges as a compelling technology, offering precise control over the crystalline structure of semiconductor materials and facilitating the activation of doping ions in localized regions. This obviates the necessity for annealing the entire wafer or device. The objective of this review is to comprehensively investigate laser annealing processes specifically targeting the crystallization of amorphous silicon (Si) and silicon carbide (SiC) samples. Silicon finds extensive use in diverse applications, including microelectronics and solar cells, while SiC serves as a crucial material for developing components designed to operate in challenging environments or high-power integrated devices. The review commences with an exploration of the underlying theory and fundamentals of laser annealing techniques. It then delves into an analysis of the most pertinent studies focused on the crystallization of these two semiconductor materials.

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Fabrication of Ohmic Contact on N-Type SiC by Laser Annealed Process: A Review

Cited by 7 publications

References 30 publications

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Improvement of β-SiC Synthesis Technology on Silicon Substrate

Resistor-to-Schottky barrier analytical model for ohmic contact test structures

Silicon and Silicon Carbide Recrystallization by Laser Annealing: A Review

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