We specialize in nanopowders of sub 20 nm particles, to offer you opportunities within the quantum confinement regime of our material systems. All nanopowders are ligand-free, to give you flexibility in your choice of capping molecules and dosage for dispersion in solvents or controlled functionalization of composites. Essentially, the finer the nanoparticles, the higher their surface area. The higher the surface area, the higher performance the nanomaterial delivers.
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QUARTERLY ( 5 % ) | BI-ANNUALLY ( 10 % ) | ANNUALLY ( 15 % )
ATOMICALLY - ARCHITECTURED 0D ZINC OXIDE
NANOARCHITECTURE : ~ 5 nm spherical nanoparticles
SURFACE AREA (BET) : 415,300 cm²/g
BAND GAP : ~ 3.5 eV
BOHR EXCITON RADIUS : ~ 2.34 nm
COLOUR : White Nanopowder
HEAT RESISTANCE : Up to 1975 °C (3587°F)
APPLICATIONS : Advanced UV filtering, Antibacterial, Antifouling, Anticorrosion, antibiotic decontamination, Electronics. Essential Additive for NanoCeramics, NanoRubber, NanoConcrete, NanoPaint & Pigment, Cosmetics (sunscreen), Semiconductor Material, Halogen-Free Flame Retardant.
ATOMICALLY - ARCHITECTURED 0D TIN OXIDE (SnOx)
NANOARCHITECTURE : ~ 1.4 nm spherical nanoparticles
SURFACE AREA (BET) : 1,486,388 cm²/g
COLOUR : CREAM-White / WHITE Nanopowder
BAND GAP : 2.5 - 3.7 eV
BOHR EXCITON RADIUS : ~ 2.7 nm
HEAT RESISTANCE : Up to 1630 °C (2970°F)
APPLICATIONS : With a Bohr exciton radius of ~ 2.7 nm, these nanoparticles with a diameter of ~ 1.4 nm, are well within the quantum-confinement range and heightened functionality for Tin Oxide.
As an extrinsic semiconductor exhibiting a wide band range, Tin Oxide is suitable for thin film nano-engineering for liquid crystal displays, transparent heating elements, resistors. It has a high gas sensing ability. It's an active component of functional energy-conservation and anti-static coatings. conductive inks, magnetic, electrodes and antireflection coatings in solar cells.
It serves as an electron transport and hole blocking layers in printed electronics. It also performs as electron injection and charge recombination functions in thin film systems such as: organic photovoltaics (OPVs), organic light emitting diodes (OLEDs) and printed photodetectors.
Tin oxide nanoparticles have magnetic properties that allow their use in magnetic data storage and magnetic resonance.
Other applications include catalysis and opacifier in ceramic glazes in ceramics. With its ultra-high surface area, it is an efficient mordant for dyeing processes.
ATOMICALLY - ARCHITECTURED 0D SILICENE CARBIDE
NANOARCHITECTURE : Nanospheres
DIMENSIONS : ~ 8 nm (0.008 um) diameter
COLOUR : Bluish-Black/Midnight Blue Nanopowder
ENERGY GAP : ~ 1.8 eV (tunable)
BOHR EXCITON RADIUS : ~ 2.7 nm
HEAT RESISTANCE : Up to 2830 °C (5130°F)
APPLICATIONS : High-grade refractory material, ceramic, semiconductor (Eg ~ 1.8 eV), high stress/strain tolerance or pulverisation resistance battery material, nano ultra-capacitor material.
ATOMICALLY - ARCHITECTURED Q-AURUM
NANOARCHITECTURE : < 10 nm (0.01 μm) Spherical Nanoparticles
COLOUR : Purple-White/Violet Nanopowder
BOHR RADIUS : ~ 0.174 nm
HEAT RESISTANCE : Up to 1064 °C (1947.2°F)
APPLICATIONS : Catalysis, photovoltaics, sensory probes, therapeutic agents, drug delivery in biotechnological and biomedical applications, electronic conductors, jewelry.
ATOMICALLY - ARCHITECTURED CALCIUM HYDROXIDE
NANOARCHITECTURE : < 25 nm Spherical hollow nanoparticles
SURFACE AREA (BET) : 388,000 cm²/g
COLOUR : White Nanopowder
HEAT RESISTANCE : Up to 580 °C (1076 °F)
APPLICATIONS : Drug delivery, phosphate binder, paint extender, adhesive, resin filler, sealant, acidity regulator, cement additive, iron purification from iron ore in a blast furnace, flue gas desulfurization eliminating harmful SO2 and NO2 .
View Safety Data Sheet (SDS) HERE