Rod diameter: 50–150 nm
Pore size:
0.5–5.0 nm
Surface area:
5-50 m²/g
Length:
> 1.0 nm

Particle diameter: 250–500 nm
Pore size:
0.5–5.0 nm
Surface area:
100-500 m²/g

Rod diameter: 50–100 nm
Pore size: 1
.0–5.0 nm
Surface area:
>500 m²/g
Length:
50–500 nm

16. Nanoribbons

Particle diameter: 200 nm

18. 3D conductive nanocarbon fiber

Functional Nanomaterials

9. Ordered Macro/Mesoporous Metal Oxides

Particle diameter: 50–500 nm
Pore size:
0.5–10.0 nm
Surface area:
100-1000 m²/g

7. Mesoporous Nanorods, Functionalized Mesoporous Nanorods

Ribbon thickness: 50 nm
Ribbon length:
>500 nm

13. Ordered Mesoporous materials-supported NANOPARTICLES

Metal particle size: <2 nm               Metal loading: <5%

Particle size: 10–500 nm
Pore size:
1.0-5.0 nm
Surface area:
10-200 m²/g

10. Ordered Nanorods, Confined Ordered Nanorods

8. Nanowires, Mesoporous Nanowires, Functionalized nanowires, Functionalized Mesoporous Nanowires

5. Ordered Mesoporous Zeolites

Tube inner diameter: 20-100 nm         Metal particle size: 20–100 nm          Particle loading: <5%

1. GRAPHENE, GRAPHENE SUSPENSION

Rod diameter: 20–50 nm
Rod length:
200-1000 nm

Particle size: 1.0–500 nm
Surface area:
10-50 m²/g

3. Ordered Mesoporous Oxides, Functionalized Ordered Mesoporous Oxides

6. Nanorods, Functionalized Nanorods

2. CARBON NANOTUBES, CARBON NANOTUBE SUSPENSION

14. Confined Nanoparticles inside of Mesoporous Nanotubes or Carbon Nanotubes

Particle mesopore size: 1.0–5.0 nm
Macropore size:
200-500 nm
Surface area:
500 m²/g

17. Conductive carbon nanosphere

Fiber diameter: 200 nm

Carbon nanotube inner diameter: 1–60 nm
Outer diameter:
5-80 nm
Solubility:
Excellent in solvent

11. Metal Nanoparticles, nanosquare and Nanocrystals

4. Mesoporous Mixed Oxides

​​DDH  Advanced Materials Inc.

15. Mesoporous NanoRings

Graphene thickness: 5–100 nm
Solubility:
Excellent in solvent

12. Nanoporous Metal Catalysts

Particle diameter: 500–1500 nm
Pore size:
0.1–5.0 nm
Surface area:
10-100 m²/g

Bubble size: 50–300 nm
Shell thickness:
20 nm
Pore size:
1.0-5.0 nm
Surface area:
500 m²/g

Wire diameter: 50–100 nm
Pore size:
1.0–5.0 nm
Surface area:
>500 m²/g
Length:
>1.0 nm