Because of their high theoretical specific capacity and plentiful reserves, Silicon Anode Material is the best choice for manufacturers and retailers of lithium batteries to upgrade anodes.
Particle Size: 900nm
About
Nano Silicon Anode Material Si Powder
:
With a capacity of 3600mAh/g, silicon is the best electrode material for future generation lithium-ion batteries. This specific capacity is 10x greater than that of graphite (372mAh/g). The significant expansion (over 300%) of silicon during the loaded (lithified state) as well as the instability and electrolyte interface (SEI) make its use very limited. Poor mechanical stability and chemical passivation characteristics of the silicon electrode make it difficult for the system to rely on the electrode's cyclability. Many studies have been conducted and proposed solutions.
The silicon volume changes dramatically during lithium insertion. It can cause the lithium-silicon-battery prototype to loose most of its power in 10 or less charge-discharge cycles. Solving the issue of stability and capacitance of lithium-ion lithium is key to high-capacity, lithium-ion lithium-ion lithium-ion cells' success.
Anode materials made from silicon have great potential to increase the storage efficiency and energy capacity of lithium-ion cells. The main disadvantage of silicon anode materials was their resistance to surface oxidation, which can increase impedance or reduce the circularity. The high-purity silicon anode materials we use have a high specific capability without significantly shortening their cycle life. Wgraj is trusted globally
Nano Silicon Anode Material Si Powder
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Silicon Anode Material
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Nano Silicon Anode Materials Si Powder Performance:
This nanosilicon anode material is CAS 7440-21-3 and has excellent rate and processing performance.
Technical Parameters of Nano Silicon Anode Materials Si Powder
Product Name
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MF
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SSA
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Particle Size
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First Discharge Capacity
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Capacity for the First Charge
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First Discharge Efficiency
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Nano Silicon Powder
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Si
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11.36m2/g
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900nm
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2348.9 mAH/g
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2003.6 mAH/g
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85.3%
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It is simple.
Nano Silicon Anode Material Si Powder
Produced?
The method of forming a silicon-anode material in a rechargeable lithium battery uses a metal matrix that contains no more than 30% silicon. This includes the silicon structure. At least partly, the metal matrix is etched to isolate the silicon structure.
Metal silicon alloy particles that contain a metal matrix with a silica structure and dispersed within the metallic matrix which contains not more then 30wt% silicon.
To remove the metallic elements from the steel-silicon-alloy, the matrix is partially etched to create a porous silicon particle with a variety of interconnected structural elements.
Applicaciones
Nano Silicon Anode Material Si Powder
:
Silicon is the promising material for next-generation lithium-ion anode materials. For aluminum shell batteries, nanosilicon is used as anode material in flexible, cylindrical, and flexible forms. The powder of silicon anode can be mixed in the liquid to avoid caking. The powder can blend seamlessly with other batteries and create a consistent, solid coating. These are ideal for many applications such as photovoltaics or lithium-ion cells.
Storage conditions for Nano Silicon Anode Materials Si Powder
A damp reunion can affect the performance of nano Si powder and its use. Nano Si must be kept in vacuum packed and in a dry area. Si powder should not be exposed to stress.
How to Pack and Ship Nano Silicon Anode Materials Si Powder
Many types of packing exist, which are dependent on the amount of nano silicon anode si powder.
Nano silicon anode Si powder packing:
1 kg/bag, 5kg/bag and 25kg/barrel. Or as requested.
Nano silicon anode Si powder shipping:
Shipments could be made by air or sea as soon as payment receipt is received.