Graphene Nanoplatelet, Purity: 99.9+%, Size: 5 nm, S.A: 135 m2/g, Dia: 18 μm

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NG01GNP0102
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  • Graphene Nanoplatelet, Purity: 99.9+%, Size: 5 nm, S.A: 135 m2/g, Dia: 18 μm
  • Graphene Nanoplatelet, 99.9+%, 5 nm, S.A:135 m2/g Dia:18μm
€10.00

Description

1 gram: 10 €
5 grams: 15 €                          
25 grams: 46 €                        
100 grams: 146 €                     
500 grams: 495 €                    
1000 grams: 946 

Contact us for tailored quotes on larger quantities & experience exceptional solutions from our experts.

Graphene Nanoplatelet Purity: 99.9+%, Size: 5 nm, S.A: 135 m2/g, Dia: 18 μm

Graphene Nanoplatelets are nanoparticles consisting of short stacks of platalet-shaped graphene sheets that are in a planar form. Graphene nanoplatelets are excellent electrical and thermal conductors as a result of their pure graphitic composition. Graphene nanoplatelets help increase thermal, electrical conductivity and stability and improve barrier properties. Unique features of graphene nanoplatelets benefit it greatly to gain a place in the market.

As the Nanografi, we supply Graphene Nanoplatelets with high quantities and more types for different applications and requirements. 

Technical Properties of Graphene Nanoplatelet

Purity 99.9+ %
Thickness (nm) 5
Diameter (μm) 18
Specific Surface Area (m2/g) 135
Conductivity (s/m) 1100-1600
Color

Gray

Raman Image

graphene-raman-6nm.jpg

TEM Images

170.png

170-.png 

Applications of Graphene Nanoplatelet

  • Use as a high performance additive for composites with PPO, POM ,PPS, PC, ABS, PP, PE, PS, Nylon and rubbers.
  • Can improve composites tensile strength, stiffness, corrosion resistance, abrasion resistance and anti-static electricity and lubricant properties.
  • For all mechanical properties modifications, typical amounts are about 2-6 wt%
  • For conductivity modification, typical amounts are about 2-8 wt%

Additional Information: The addition of Graphene to different composites show improvements in their physical properties. These improvements include electrical conductivity, thermal conductivity, hardness, strength, viscosity etc. Moreover, graphene can replace materials that are used in today’s applications resulting in enhancement of their applications. For example graphene can be integrated into plastics such as epoxy to create a material that can replace steel in the structure of aircraft, improving fuel efficiency, range and reducing weight. It could even be used to coat aircraft surface material to prevent electrical damage resulting from lightning strikes due to its high conductivity. 

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