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Home > Products > inorganic > Forsman Graphene powder Graphene water solution Graphene aqueous dispersion
Forsman Graphene powder Graphene water solution Graphene aqueous dispersion
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- 500 Gram / Grams
- 30 Ton / Tons per Month
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Forsman Graphene oxide powder Graphene oxide dispersion Graphene oxide membrane
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Zirconia powder ZrO2 99.9% 10 - 30 nm 50 nm - 325 mesh
Product Details
| Brand Name: | forsman | Place of Origin: | China | Model Number: | 0602018 0602029 0602038 |
| Purity: | 98% 99% 99.9% | MF: | C | CAS No.: | 1034343-98-0 |
| Grade Standard: | Other, Industrial Grade |
Packaging Details
500g 1kg 10kg 20kg
Product Description
Graphene powder
The basic information
English name: Graphene powder
Molecular formula:C
The molecular weight:12
CAS#:1034343-98-0
Melting point:2000℃
Density (20℃) :2.2 g/m3
Appearance: Black brown powder
Storage: The product is easy to absorb water.Keep the packaging container sealed and use it immediately after unpacking
| 0602134 | Graphene powder , hydroxy modified(C) | 1034343-98-0 | 98 % | T: 0.55 - 3.74 nm , L: 0.5 - 3 μm | |
| 0602128 | Graphene powder , carboxyl modified(C) | 1034343-98-0 | 99.8 % | T: 0.8 - 1.2 nm , L: 0.5 - 5 μm | |
| 0602041 | Graphene powder , kilo lab(C) | 1034343-98-0 | 98 % | T: 1 nm , L: 20 μm | |
| 0602039 | Graphene powder , pilot plant(C) | 1034343-98-0 | 99 % | T: 2-3 nm , L: < 2 μm | |
| 0602171 | Graphene powder , pilot plant(C) | 1034343-98-0 | 50 % | T: 2.4 nm , L: 5 - 15 μm | |
| 0602038 | Graphene powder , pilot plant(C) | 1034343-98-0 | 99.7 % | T: 4 - 7 nm , L: 6 μm | |
| 0602040 | Graphene powder , pilot plant(C) | 1034343-98-0 | 99 % | T: 6 - 8 nm , L: <2 μm | |
| 0602035 | Graphene powder , pilot plant(C) | 1034343-98-0 | 99.9 % | T: 10 nm , L: 3 μm | |
| 0602175 | Graphene powder , physical method , pilot plant(C) | 1034343-98-0 | 99 % | T: <1.7 nm , Φ: 8 * 8 μm | |
| 0602107 | Graphene powder , physical method , pilot plant(C) | 1034343-98-0 | 99.7 % | T: 3 nm , L: 80 * 80 μm | |
| 0602029 | Graphene powder , physical method , pilot plant(C) | 1034343-98-0 | 99.7 % | T: 4 - 7 nm , L: 80 μm | |
| 0602106 | Graphene powder , physical method(C) | 1034343-98-0 | 95 % | T: 5 nm , L: 80 × 80 μm | |
| 0602018 | Graphene powder , antiseptic , pilot plant(C) | 1034343-98-0 | 93 % | <10 μm | |
| 0602016 | Graphene powder , conductive , thermal conductive, pilot plant(C) | 1034343-98-0 | 97 % | ≤ 10 μm | |
| 0602030 | Graphene powder , single layer , kilo lab(C) | 1034343-98-0 | _ | T: 0.8 - 1.2 nm , L: 0.8 - 3 μm | |
| 0602031 | Graphene powder , single layer, pilot plant(C) | 1034343-98-0 | _ | T: 0.8 - 1.2 nm , L: 2.6 μm | |
| 0602136 | Graphene powder , carboxy modified(C) | 1034343-98-0 | 98 wt% | T: 0.55 - 3.74 nm , L: 0.5 - 3 μm | |
| 0602178 | Graphene dispersion , PGMEA(C) | _ | _ | 10 % in PGMEA | |
| 0602032 | Graphene water solution , single layer , kilo lab(C) | _ | _ | T: 0.8 - 1.2 nm , L: 100 - 200 nm | |
| 0602094 | Graphene aqueous dispersion(C) | _ | _ | aqueous solution: 10 % , Solid content: 10 % | |
| 0603008 | Graphene On Ultra-Fine 2000 Mesh Copper TEM Grids(C) | _ | _ | 1 layer , T: ~ 0.35 nm , Transparency: ~ 96.4 % | |
| 0603007 | CVD Graphene On Quartz Substrate(C) | _ | _ | 10 * 10 mm , monolayer | |
Uses of Graphene powder
(1)The oxygen-containing groups on the surface of graphene can form hydrogen bonds with water and OH-,and the 1-2 layers of crystal-extensioned graphene can sensitively sense the ion density on the surface,which can be used as a good pH sensor.
(2)The surface of graphene can adsorb gas molecules,and different gas molecules can act as electron donors or acceptors to cause changes in electrical conductivity,which is similar to the mechanism of solid-state gas sensors.
(3)In terms of hydrogen storage materials, alloys such as LaNi5,TiFe and MgNi all have hydrogen storage capacity.Among them,La and Ti alloys are hydrogen storage materials at low temperature (<150℃),but their hydrogen storage capacity is low (<2wt%).Mg alloy is a high temperature hydrogen storage material, although the theoretical hydrogen storage capacity is high,but its adsorption and desorption kinetics is not stable.In addition,alloys are not only expensive but also heavy,which greatly limits their practical applications.In the development and research of new hydrogen storage materials,it has been found that carbon nanotubes,graphene and other materials have very good hydrogen storage capacity,and the price of these materials is low,which can greatly reduce the cost.
(4)Graphene has excellent electrical conductivity and is a good electrode material.
Product advantage
At present, the factory can produce nano level,sub-micron level,micron level and other different particle size products.Products that have been industrialised can be supplied at tonnage level and can accept other granularity customization from customers.According to the microscopic morphology of graphene powder,graphene dispersion,graphene water solution,graphene water-based dispersion,graphene film;Product particle size distribution span is large,can be customized according to customer feeding quantity packaging specifications.
Product display
Fig.| Graphene micro powder
Fig.| Graphene products packaging
Source Factory、Research and development
Inventory packaging logistics display
Contact Us
- Forsman Scientific(Beijing)Co.,Ltd
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- Phone86-010-64646565-807
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