Identification of Surface Structures on 3C-SiC Nanocrystals with Hydrogen and Hydroxyl Bonding by Photoluminescence

Abstract: SiC nanocrystals (NCs) exhibit unique surface chemistry and possess special properties. This provides the opportunity to design suitable surface structures by terminating the surface dangling bonds with different atoms thereby boding well for practical applications. In this article, we report the photoluminescence properties of 3C-SiC NCs in water suspensions with different pH values. Besides a blue band stemming from the quantum confinement effect, the 3C-SiC NCs show an additional photoluminescence band at 5… Show more

“…Among the various reinforcements which improve mechanical properties, electrical properties and also reduce the coefficient of thermal expansion and the coefficient of friction [4], silicon carbide is the most promising raw materials for high temperature and excellent performance structural material attributable to its extreme hardness, excellent strength, low bulk density, high thermal conductivity, good thermal shock resistance and excellent resistance to oxidation [5][6][7]. In addition, low weight, low wear, high corrosion resistance and chemical inertness make silicon carbide novel material for biophysics and biomedical applications [8]. These materials are extensively playing great role in ceramic materials for increasing the thermal as well as mechanical properties of reinforced composite.…”

Effect of surface modified silicon carbide particles with Al2O3 and nanocrystalline spinel ZnAl2O4 on mechanical and damping properties of the composite

“…Among the various reinforcements which improve mechanical properties, electrical properties and also reduce the coefficient of thermal expansion and the coefficient of friction [4], silicon carbide is the most promising raw materials for high temperature and excellent performance structural material attributable to its extreme hardness, excellent strength, low bulk density, high thermal conductivity, good thermal shock resistance and excellent resistance to oxidation [5][6][7]. In addition, low weight, low wear, high corrosion resistance and chemical inertness make silicon carbide novel material for biophysics and biomedical applications [8]. These materials are extensively playing great role in ceramic materials for increasing the thermal as well as mechanical properties of reinforced composite.…”

Effect of surface modified silicon carbide particles with Al2O3 and nanocrystalline spinel ZnAl2O4 on mechanical and damping properties of the composite

“…Among the reported functionalities, those in photonics, optics, sensors [1], nano and micro-electromechanical systems (NEMS, MEMS) [2], electronics [3], quantum computing [4] are most promising. Some of these architectures are potentially suitable for technological applications such as solar cells, high temperature energy conversion systems, heat engine, gas turbines, optical modulators or switches, sensors and waveguide material in refractometric or fluorescence detection [5][6][7][8].…”

“…In addition, low weight, low wear, high corrosion resistance and chemical inertness make silicon carbide novel material for biophysics and biomedical applications [7]. These materials are extensively playing great role in ceramic materials for increasing the thermal as well as mechanical properties of reinforced composite materials.…”

Effect of surface modification on silicon carbide particles with nanocrystalline spinel LZO for enhanced damping and mechanical property

“…Therefore, LPMSC-1 and LPMSC-2 could bind rhPDGF-BB via hydrogen bonds. [26][27][28][29] However, there was no Si-OH on the surface because LPMSC-3 was completely transformed…”

Fabrication of large-pore mesoporous Ca-Si-based bioceramics for bone regeneration