Hard Carbon Description
Hard Carbon is an amorphous, non-graphitizable carbon material known for its high surface area, excellent electrical conductivity, and remarkable lithium storage capacity. Hard Carbon is prepared from plant raw materials. It has an excellent low temperature, rate, cycle, and safety performance. It is widely used in power batteries, start-stop power supplies, and sodium-ion batteries.
Hard Carbon Specification
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Items
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D50 (µm)
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D002* (nm)
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Tap (g/cm3)
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Capacity (mAh/g)
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Efficiency (%)
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BHC-240
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8.0-12.0
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0.375
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0.75±0.1
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245.0±10.0
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84.0±1.0
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BHC-300
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8.0-12.0
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0.378
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0.75±0.1
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300.0±10.0
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85.0±1.0
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BHC-400
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8.0-12.0
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0.382
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0.75±0.1
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400.0±10.0
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85.0±1.0
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Hard Carbon XRD (BSC-3)
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Hard Carbon Applications
- Battery Anodes: Used in lithium-ion batteries for high-capacity lithium storage and long cycle life.
- Supercapacitors: Utilized in energy storage due to its high surface area and excellent electrical conductivity.
- Adsorbents: Applied in gas and liquid phase adsorption processes.
- Catalyst Supports: Acts as a support material for catalysts in various chemical reactions.
Hard Carbon Packaging
200g/bottle, or customized.
Hard Carbon FAQs
Q1. How is Hard Carbon produced?
Hard Carbon is typically produced by pyrolyzing organic precursors such as biomass, synthetic polymers, or petroleum pitch at high temperatures in an inert atmosphere, often followed by further carbonization.
Q2. How should Hard Carbon be stored?
Store in a cool, dry place away from moisture and incompatible materials. Ensure containers are tightly sealed to prevent contamination.
Q3. Can Hard Carbon be customized for specific applications?
Yes, Hard Carbon can be tailored for specific applications by adjusting the pyrolysis conditions and precursor materials to modify its properties such as surface area, porosity, and electrical conductivity.
Q4. What is the difference between Hard Carbon and Soft Carbon?
Hard Carbon: Non-graphitizable, with a highly disordered, amorphous structure, and typically offers higher mechanical strength and better performance in battery applications.
Soft Carbon: Also non-graphitizable, but with a less disordered structure compared to Hard Carbon.
