Product
Aegis Technology provides a variety of products including nanostructured materials and nanocomposites in the forms of powders and bulk materials. Aegis Technology works with customers to meet their specifications and ensure the highest level of quality. Our products include nanomaterials and nanocomposite powders comprising of alloys, ceramics, metals, polymers, and semiconductors. We also provide large-dimension nanomaterials and nanocomposites.
The table below shows the type of nanomaterials that we can custom deliver to customers.
Nanopowder/ |
Purity |
Average Particle |
Specific |
Morphology |
Alumina (Al2O3) |
99.9+% |
20 nm |
< 200 m2/g |
|
Aluminum (Al) |
99.9+% |
18 nm |
40-60 m2/g |
|
Aluminum Nitride (AlN) |
99+% |
<50 nm |
> 75 m2/g |
Spherical |
Boron (B) |
99.7% |
10-50 nm |
|
|
Boron Carbide (B4C) |
99+% |
<50 nm |
> 75 m2/g |
Monocrystalline |
Boron Nitride (BN) |
99+% |
<40 nm |
> 80 m2/g |
Nearly Spherical |
Cobalt (Co) |
99.9+% |
28 nm |
40-60 m2/g |
Spherical |
Copper (Cu) |
99.9+% |
25 nm |
30-50 m2/g |
|
Copper Oxide (CuO) |
98+% |
<60 nm |
> 70 m2/g |
|
Gold (Au) |
99.95+% |
10-50 nm |
|
|
Indium Oxide (In2O3) |
99.99+% |
30-70 nm |
10-20 m2/g |
|
Iridium (Ir) |
99.95+% |
30-100 nm |
|
|
Iron (Fe) |
99.9+% |
25 nm |
40-60 m2/g |
|
Iron Oxide (Fe2O3 and Fe3O4) |
99+% |
<40 nm |
>60 m2/g |
|
Magnesium Oxide |
99.9+% |
~40 nm |
> 50 m2/g |
|
Molybdenum (Mo) |
99.5+% |
80 nm |
4-10 m2/g |
Nearly Spherical |
Nickel (Ni) |
99.9+% |
20 nm |
40-60 m2/g |
Spherical |
Palladium (Pd) |
99.95+% |
30-100 nm |
|
|
Platinum (Pt) |
99.95+% |
30-100 nm |
|
|
Rhodium (Rh) |
99.95+% |
30-100 nm |
|
|
Ruthenium (Ru) |
99.95+% |
30-100 nm |
|
|
Silicon (Si) |
99.99% |
50 nm |
80 m2/g |
Spherical |
Silicon Carbide (SiC) |
99+% |
<50 nm |
> 90 m2/g |
Nearly spherical |
Silicon Nitride (Si3N4) |
99+% |
<20 nm |
> 115 m2/g |
|
Silver (Ag) |
99.9+% |
35 nm |
30-50 m2/g |
Spherical |
Tantalum (Ta) |
99+% |
80 nm |
|
|
Tin (Sn) |
99+% |
100 nm |
|
|
Tin Oxide (SnO2) |
99.9% |
50-70 nm |
10-20 m2/g |
|
Titanium (Ti) |
99+% |
80 nm |
13.9 m2/g |
|
Titanium Boride (TiB2) |
98+% |
4 – 8 microns |
|
|
Titanium Carbide (TiC) |
99+% |
<40 nm |
> 50 m2/g |
|
Titanium Nitride |
97+% |
<15 nm |
> 80 m2/g |
Spherical |
Titanium Oxide (Rutile-TiO2) |
99+% |
80 nm |
>30 m2/g |
|
Titanium Oxide (Anatase-TiO2) |
99.5% |
20 nm |
>120 m2/g |
|
Tungsten (W) |
99.5% |
30-120 nm |
4-8 m2/g |
Nearly Spherical |
Tungsten Oxide (WO3) |
99+% |
60-100 nm |
5-20 m2/g |
|
Zinc (Zn) |
99.9+% |
35 nm |
30-50 m2/g |
|
Zinc Oxide (ZnO-01) |
99.7+% |
20 nm |
>90 m2/g |
|
Zinc Oxide (ZnO-02) |
99+% |
50 nm |
>60 m2/g |
|
Zirconium Carbide (ZrC) |
97+% |
<60 nm |
> 70 m2/g |
Spherical |