High temperature oxidation of two- and three-dimensional hafnium carbide and silicon carbide coatings

Verdon, C.; Szwedek, O.; Allemand, A.; Jacques, Sylvain; Petitcorps, Y. Le; David, Patrick

doi:10.1016/j.jeurceramsoc.2013.10.019

Cited by 60 publications

(38 citation statements)

References 12 publications

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“…The high threshold displacement energy of the material leads to a high level of radiation hardness compared with other common semiconductor detector materials [4,5], whereas the strong covalent bonds between atoms also makes the materials mechanically strong. Due to its radiation hardness, fast switching-capability, insensitivity to visible light, and biocompatibility, SiC is used for many other applications such as radiation hard electronics, high temperature coatings, biomedical sensors, UV-light sensors and others [6][7][8][9]. The radiation detectors based on 4H-polytype SiC epitaxial layers are mostly used as a charged particle [10,11] and neutron detectors [12].…”

Section: Introductionmentioning

confidence: 99%

Response of 4H-SiC Detectors to Ionizing Particles

et al. 2020

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We report the response of newly designed 4H-SiC Schottky barrier diode (SBD) detector prototype to alpha and gamma radiation. We studied detectors of three different active area sizes (1 × 1, 2 × 2 and 3 × 3 mm2), while all detectors had the same 4H-SiC epi-layer thickness of approximately µm, sufficient to stop alpha particles up to 6.8 MeV, which have been used in this study. The detector response to the various alpha emitters in the 3.27 MeV to 8.79 MeV energy range clearly demonstrates the excellent linear response to alpha emissions of the detectors with the increasing active area. The detector response in gamma radiation field of Co-60 and Cs-137 sources showed a linear response to air kerma and to different air kerma rates as well, up to 4.49 Gy/h. The detector response is not in saturation for the dose rates lower than 15.3 mGy/min and that its measuring range for gamma radiation with energies of 662 keV, 1.17 MeV and 1.33 MeV is from 0.5 mGy/h–917 mGy/h. No changes to electrical properties of pristine and tested 4H-SiC SBD detectors, supported by a negligible change in carbon vacancy defect density and no creation of other deep levels, demonstrates the radiation hardness of these 4H-SiC detectors.

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Section: Introductionmentioning

confidence: 99%

Response of 4H-SiC Detectors to Ionizing Particles

et al. 2020

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“…As a functional material, HfC is mainly used as cathode material in field emission due to its unique electronic characteristics . As a structural material, HfC has been used as ultra‐high–temperature thermal protective coatings and additive components of C/C composite due to its good mechanical performance and high physical and chemical stability.…”

Section: Introductionmentioning

confidence: 99%

Large‐scale synthesis of hafnium carbide nanowires via a Ni‐assisted polymer infiltration and pyrolysis

Zhang

Ren

et al. 2018

J Am Ceram Soc

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Hafnium carbide (HfC) nanowires were successfully synthesized on C/C composites via a Ni-assisted polymer infiltration and pyrolysis. Before synthesizing HfC nanowires, the composition and microstructure of the organic HfC precursor and its pyrolyzed products were characterized by Fourier transform infrared spectra, X-ray photoelectron spectroscopy, and X-ray diffraction. The effect of heat-treatment temperature on the morphology and microstructure of HfC nanowires were investigated by scanning electron microscopy and transmission electron microscopy. Results show that HfC nanowires exhibits three-layer core-shell structure, including HfC core, HfO 2 inner shell (~2 nm) and carbon nanosheet outer shell (~1 nm). The obtained HfC nanowire is typically grown along <01 1> with the diameters of~100 nm and the length of several micrometers. The growth of HfC nanowire follows the combination of top-type vapor-liquid-solid and solid-liquidsolid mechanism. K E Y W O R D SHfC nanowires, Ni-assisted, pyrolysis of polymeric precursors, VLS and SLS mechanism

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“…However, these applications are limited by their rapid oxidation or ablation at ultra-high temperatures [4][5][6][7] . Ceramic coatings are designed to protect C/C composites from oxidation or ablation [8,9] .…”

Section: Introductionmentioning

confidence: 99%

Effect of Monolithic LaB6 on the Ablation Resistance of ZrC/SiC Coating Prepared by Supersonic Plasma Spraying for C/C Composites

Jia

et al. 2016

Journal of Materials Science & Technology

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High temperature oxidation of two- and three-dimensional hafnium carbide and silicon carbide coatings

Cited by 60 publications

References 12 publications

Response of 4H-SiC Detectors to Ionizing Particles

Response of 4H-SiC Detectors to Ionizing Particles

Large‐scale synthesis of hafnium carbide nanowires via a Ni‐assisted polymer infiltration and pyrolysis

Effect of Monolithic LaB6 on the Ablation Resistance of ZrC/SiC Coating Prepared by Supersonic Plasma Spraying for C/C Composites

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