无定形石墨,碳黑,片状石墨,高结晶性石墨,漂浮石墨,纳米结构石墨 |
石墨
Graphite
Amorphous Graphite
,无定形石墨
Carbon Black
,碳黑
Flake Graphite,
片状石墨
High Crystalline Natural Graphite,
高结晶性石墨
Kish Graphite (Grade 200),
漂浮石墨
Kish Graphite (Grade 300),
漂浮石墨
Nanostructured Graphite-250,
纳米结构石墨
Nanostructured Graphite-400,纳米结构石墨
石 墨 |
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Amorphous Graphite 无定形石墨 |
100 g | Microcrystalline graphite is widely known as Amorphous Graphite. The utility grade of graphite powder is used for various applications where graphite is required; it is commonly used for general maintenance. It is usually formed by the thermal metamorphism of coal. Properties: 325 Mesh (44 Microns or more in lateral size) Carbon content: 80% or more SEM图像 |
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Carbon Black 碳黑 |
100 g | Carbon black (also known as acetylene black, channel black, furnace black, lamp black or thermal black) is a material produced by the incomplete combustion of heavy petroleum products. Carbon black is a form of amorphous carbon that has a high surface-area-to-volume ratio. Carbon Black is the standard carbon material for any conductive and antistatic applications. It is widely used in the plastics and coatings industry. Properties: Surface Area: 254 m2/g Particle Size: 30 nm Carbon Content: 99% or more 拉曼光谱图 / SEM图像 |
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Flake Graphite 片状石墨 |
100 g | As the name implies, flake graphite has a distinctly flaky or platy morphology. Graphite is formed when pure carbon atoms link together to form flat sheets, which manifest themselves as large visible flakes or coarsely crystalline graphite. Properties: +100 mesh (150 microns or more in lateral size) Purity 99.9% SEM图像1 / SEM图像2 |
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High Crystalline Natural Graphite 高结晶性石墨 |
10 g | Highly Crystalline Natural Graphite is nearly a perfect crystal. It is the ultimate material for researchers and high-end applications. We recommend these products as a starting material for the synthesis of graphene. Properties: Ultrapure: Carbon content is >99.75% Lateral Dimensions: 10-75 microns Nearly perfect crystal structure This material is perfect for many applications which utilize graphene synthesis from graphite. It is generally more affordable than kish graphite for graphene-related applications. SEM图像1 /SEM图像2 / 拉曼光谱图 |
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25 g | |||
Kish Graphite (Grade 200) 漂浮石墨 |
5 g | Kish Graphite is a byproduct of steel-making. It is obtained when carbon crystallizes from molten steel during the steel manufacturing process. It is used by hundreds of research groups to make graphene by mechanical exfoliation. (aka the "Scotch Tape Method,” as pioneered by Novoselov and Geim). Perfect for making "Scotch Tape" graphene! Ultrapure: Carbon>99.2%, Moisture<0.35% Grade 200 Flake size: 0.7-2 mm SEM图像 |
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Kish Graphite (Grade 300) 漂浮石墨 |
0.2 g | Kish Graphite is a byproduct of steel-making. It is obtained when carbon crystallizes from molten steel during the steel manufacturing process. It is used by hundreds of research groups to make graphene by mechanical exfoliation. (aka the "Scotch Tape Method,” as pioneered by Novoselov and Geim). Perfect for making "Scotch Tape" graphene! Grade 300 Ultrapure: Carbon>99% Large Flakes: size 1-3 mm Kish graphite is used by hundreds of research groups to make graphene by mechanical exfoiliation. (a.k.a. "Scotch tape method pioneered by Novoselov and Geim") Perfect for making "Scotch Tape" graphene! 图片 / SEM图像1 / SEM图像2 |
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0.5 g | |||
Nanostructured Graphite-250 纳米结构石墨 |
25 g | Specific Surface Area: 250 m2/g Lateral Size: 100 nm-500 nm Thickness: 10-300 nm Ultrafine Natural Nanographite is a high surface area material, produced by splitting of natural graphite. There is no oxidation or use of surfactants. SEM图像1 / SEM图像2 / 拉曼光谱图 |
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Nanostructured Graphite-400 纳米结构石墨 |
25 g | Specific Surface Area: 400 m2/g Lateral Size: 100 nm-500 nm Thickness: 10-300 nm Ultrafine Natural Nanographite is a high surface area material, produced by splitting of natural graphite. There is no oxidation or use of surfactants. SEM图像1 / SEM图像2 / 拉曼光谱图 |
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