About Lithium Battery Anode Material Few Layer Graphene:What is few layer graphene? The few graphene layers are made up of ultra-thin layers of carbon atoms arranged in a hexagonal honeycomb lattice. Graphene films produced by chemical vapor deposition (CVD) are polycrystalline in nature, with multiple small graphene domains growing and merging into a continuous film. Compared…
Lithium Battery Anode
Lithium battery anode material are generally divided into carbon-based negative electrodes and non-carbon-based negative electrodes. Among them, carbon-based negative electrodes can be divided into graphite, hard carbon, and soft carbon negative electrodes. Graphite can be divided into artificial graphite, natural graphite, and mesocarbon microspheres; non-carbon The negative electrode includes lithium titanate, tin-based alloy negative electrode, silicon-based alloy negative electrode, and the like.
Applications of Lithium Battery Anode
At present, the mainstream anode products include natural graphite and artificial graphite. Artificial graphite is mainly used for high-capacity vehicle power batteries and rate batteries, as well as lithium-ion batteries for mid-to-high-end electronic products. Natural graphite is mainly used for small lithium-ion batteries and general-purpose batteries. electronics lithium-ion batteries.
Ormemoda material supplier supply high quality and superfine lithium battery anode materials, such as graphene powder, Si-C powder, nano silicon powder, SiO powder, graphite powder, etc. Send us an email or click on the needed products to send an inquiry.
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Shipment Term:
By international express, by courier, by air, by sea, or as customers request.
Storage conditions:
1) Should be avoid damp and high temperature.
2) Use immediately after opening the inner package bag.
3) Should be store in a dry environment at room temperature.
Lithium Battery Anode Material 99.95% Natural Composite Graphite 216
About Lithium Battery Anode Material 99.95% Natural Composite Graphite 216:Natural graphite is a natural mineral, which is generally formed in high-temperature geological conditions and widely distributed in metamorphic deposits. It is formed by the regional metamorphism of sedimentary rocks rich in organic matter or carbon. Generally can be divided into crystalline graphite (flake) and cryptocrystalline graphite…
Calcium Nitride Ca3N2 Powder CAS 12013-82-0
About Calcium Nitride Ca3N2 powderIn most cases, calcium nitride is usually available in large volumes. Ormemoda provides a wide range of products for hydrogen storage research, advanced fuel cells, and battery applications. Hydrogen is easily produced from renewable energy sources and is the most abundant element in the universe. Hydrogen comes from many sources, such…
Lithium Battery Anode Material 99.95% Artificial Composite Graphite Powder 15
About Lithium Battery Anode Material 99.95% Artificial Composite Graphite Powder 15:In a broad sense, the graphite materials obtained through organic carbonization and graphitization at a high temperature can be called composite graphite, such as carbon fiber, pyrolytic carbon, foam graphite, etc. The narrow sense of carbon graphite composite usually refers to the carbon raw material…
Lithium Battery Anode Material Silicon Monoxide SiO Powder CAS 10097-28-6
About Lithium Battery Anode Material Silicon Monoxide SiO Powder:Silica monoxide is an inorganic compound, chemical formula for SiO, black-brown to loess color amorphous powder under normal temperature and pressure, melting point 1702°C, boiling point 1880°C, density 2.13g/ cm ³, insoluble in water, can be dissolved in dilute hydrofluoric acid and nitric acid in the mixture…
Lithium Battery Anode Material 99.95% Modified Artificial Graphite TRA
About Lithium Battery Anode Material 99.95% Modified Artificial Graphite:Modified graphite is a new generation of anode material for lithium-ion batteries with good performance and low price. The anode material of lithium battery is one of the main materials of the lithium-ion battery, which plays a key role in energy density and cycle stability. In recent…