Product Properties
Diamond Nanopowder/ Nanoparticles (C)
Diamond nanoparticles Purity: > 95%
Diamond nanoparticles Appearance: Grey nanopowder
Diamond nanoparticles APS: 3-4 nm
Diamond nanoparticles SSA: ~282 m2/g
Diamond nanoparticles Functional group on surface: --OH, --CN, --COOH, -C-O-C, --C=O
Diamond nanoparticles Electrical Resistivity: 7.7x107ohm.cm
Diamond nanoparticles Hydrophilia degree: -3100 MJ/mol.g
Diamond nanoparticles Relative magnetic susceptibility: <1x10-8 m2/kg
Diamond nanoparticles Initial oxidization temperature: 803 K
Diamond nanoparticles Morphology: spherical
Diamond nanoparticles True density: 3.05-3.30 g/cm3
Health and Safety
Hazard Statements | N/A |
Transport Information | N/A |
Suggest equipment | Eyeshields, Gloves, type N95 (US), type P1 (EN143) respirator filter |
Diamond (C) Nanopowder General Applications
One of the most widely-used and versatile nanopowders on the market, diamond nanopowder sees heavy use in electronics manufacturing, jewelry, textiles,
erosion-resistant coatings, as a reinforcement agent for various substances, in artificial diamond manufacturing, and countless other operations. Some of the
most exciting research in biology, electronics, and quantum engineering revolve around the properties of this inexpensive, highly versatile powder.
Diamond nanopowder, also referred to as nanodiamonds, is composed of single crystal diamonds from 5 to 500 nanometers. Depending on the application,
different sizes, compositions with other powders, and other factors may change the ideal.
Diamond (C) Nanopowder Applications
- • Polishing: Nanodiamonds allow for highly precise polishing of even the most rugged surfaces, making them a highly preferred coating for such tasks.
- • Protective coatings: Adding diamond nanopowder to a protective coating can improve its resistance to damage immensely at a relatively low cost.
- • Reinforcement: Used in resins, ceramics, rubbers, and countless other compounds, diamond nanopowder improves durability and resilience.
- • Quantum engineering: New research indicates exciting possibilities for nanodiamonds in quantum computing and other quantum engineering projects.