Journal ArticleDOI
Status of silicon carbide (SiC) as a wide-bandgap semiconductor for high-temperature applications: A review
J.B. Casady,R.W. Johnson +1 more
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In this article, the status of SiC in terms of bulk crystal growth, unit device fabrication processes, device performance, circuits and sensors is discussed, focusing on demonstrated high-temperature applications, such as power transistors and rectifiers, turbine engine combustion monitoring, temperature sensors, analog and digital circuitry, flame detectors, and accelerometers.Abstract:
Silicon carbide (SiC), a material long known with potential for high-temperature, high-power, high-frequency, and radiation hardened applications, has emerged as the most mature of the wide-bandgap (2.0 eV ≲ Eg ≲ 7.0 eV) semiconductors since the release of commercial 6HSiC bulk substrates in 1991 and 4HSiC substrates in 1994. Following a brief introduction to SiC material properties, the status of SiC in terms of bulk crystal growth, unit device fabrication processes, device performance, circuits and sensors is discussed. Emphasis is placed upon demonstrated high-temperature applications, such as power transistors and rectifiers, turbine engine combustion monitoring, temperature sensors, analog and digital circuitry, flame detectors, and accelerometers. While individual device performances have been impressive (e.g. 4HSiC MESFETs with fmax of 42 GHz and over 2.8 W mm−1 power density; 4HSiC static induction transistors with 225 W power output at 600 MHz, 47% power added efficiency (PAE), and 200 V forward blocking voltage), material defects in SiC, in particular micropipe defects, remain the primary impediment to wide-spread application in commercial markets. Micropipe defect densities have been reduced from near the 1000 cm−2 order of magnitude in 1992 to 3.5 cm−2 at the research level in 1995.read more
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Book ChapterDOI
Silicon Carbide — A Survey of Synthetic Approaches, Properties and Applications
TL;DR: In this paper, a critical overview is presented regarding useful synthesis routes towards such molecules with appropriate chemical composition as well as controllable architecture (metal condensation of halogenosilanes or silahalogenocarbons, disproportionation of disilanes, dehydrocoupling of hydrosilane, hydrosilylation of olefins).
Journal ArticleDOI
A facile synthesis of Au-nanoparticles decorated PbI 2 single crystalline nanosheets for optoelectronic device applications
Mohd. Shkir,Mohd. Shkir,I.S. Yahia,V. Ganesh,Yugandhar Bitla,I.M. Ashraf,I.M. Ashraf,Ajeet Kaushik,S. AlFaify +8 more
TL;DR: The Au-PbI2 SCNSs display a compelling increment in photoconductivity, and its fabricated photodetector showed a stable and switchable photo-response, and has the potential to be used as a material of choice when fabricating an optoelectronic devices of high performance.
Journal ArticleDOI
Flexible Nitrogen Doped SiC Nanoarray for Ultrafast Capacitive Energy Storage.
TL;DR: It is found that the SC performance of SiCNW arrays can be substantially enhanced by nitrogen doping, which could favor a more localized impurity state near the conduction band edge that greatly improves the quantum capacitance and hence increases the bulk capacitanceand the high-power capability.
Journal ArticleDOI
Optimization of on -State and Switching Performances for 15–20-kV 4H-SiC IGBTs
TL;DR: The 4H-SiC p-channel IGBTs designed to block 15 and 20 kV are optimized for minimum loss (on-state plus switching power) by adjusting the parameters of the JFET region, drift layer, and buffer layer, using 2-D MEDICI simulations.
Journal ArticleDOI
Growth of flexible N-doped SiC quasialigned nanoarrays and their field emission properties
Shanliang Chen,Shanliang Chen,Pengzhan Ying,Lin Wang,Guodong Wei,Jinju Zheng,Fengmei Gao,Shubing Su,Weiyou Yang +8 more
TL;DR: In this article, the growth of flexible SiC quasialigned nanoarrays with N dopants on carbon fabric substrate via the catalyst-assisted pyrolysis of a polymeric precursor was reported.
References
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Journal ArticleDOI
Large‐band‐gap SiC, III‐V nitride, and II‐VI ZnSe‐based semiconductor device technologies
TL;DR: In this article, the authors compare the performance of SiC, GaN, and ZnSe for high-temperature electronics and short-wavelength optical applications and conclude that SiC is the leading contender for high temperature and high power applications if ohmic contacts and interface state densities can be further improved.
Book
Device electronics for integrated circuits
TL;DR: In this article, the authors present a list of symbols for metal-oxide-silicon systems, including Mos Field-effect transistors, high-field effects, and high-frequency effects.
Journal ArticleDOI
Comparison of 6H-SiC, 3C-SiC, and Si for power devices
TL;DR: In this paper, the drift region properties of 6H- and 3C-SiC-based Schottky rectifiers and power MOSFETs that result in breakdown voltages from 50 to 5000 V are defined.
Book
Properties of Silicon Carbide
G. L. Harris,Inspec +1 more
TL;DR: In this paper, basic physical properties optical and paramagnetic properties carrier properties and band structure energy levels surface structure, metallization and oxidation etching diffusion of impurities and ion implantation bulk and epitaxial growth contacts and junctions Schottky diodes.
Journal ArticleDOI
Thermal Conductivity of Pure and Impure Silicon, Silicon Carbide, and Diamond
TL;DR: In this article, the thermal conductivity of high purity SiC and impure Si and SiC has been measured over the temperature range from 3° to 300°K, and it was shown that the thermal properties of the highest purity SiCs are intermediate between those of pure Si and pure diamond, and at 300°k is greater than that of copper.