Silicon Oxide SiO2 Silencious Nanospheres is a Lithium Battery Anode Material. It features uniform particle size and hollow structure.
Particle size: 300-600nm
About Silicon Oxide SiO2 Hollow nanospheres for Lithium Battery anode Material
Silicon Oxide SiO2 Hollow Nanospheres exhibits uniform particle sizes, hollow structures, uniform specific surface area and uniform pores. They are also super-hydrophilic. Because of its high potential for use in high-energy lithiumion batteries (LIB), silicon oxide has been recognized as an attractive anode material. It is known for having a uniform particle size and hollow structure.
Silicon Oxide SiO2 hollow nanospheres materials can be made by crystallization, solid state and using other ultra high purification methods such as sublimation.
Parameter Technical of Silicon Oxide SiO2 Hollow nanospheres Anode Material :
Use of Silicon Oxide SiO2 Hollow Nuspheres as Anode Materials –
Development of hollow microspheres focuses on Silica hollows. A new inorganic material type, silica hollow microspheres are unique because of their narrow particle sizes, excellent dispersibility and stability. This makes them attractive for many applications, including medicine, biochemical and composite materials, and catalysis.
Many drugs are packed in hollow spheres in order to maximize their effectiveness. Silica hollow microspheres have been widely used as drug carriers.
Silica hollow microspheres may also be used to create an ultrasound imaging contrast agent. Because of the unique, stable structure of silica hollow microspheres and its ability to easily modify functional groups on its surface it is proving very useful in ultrasound imaging.
Reactions are restricted to the sphere. Each hollow sphere acts as a catalyst, increasing the pathway of light and thereby improving its efficiency. By stacking hollow microspheres in a three-dimensional periodic structure of character, the photons and photoelectron gap gaps can create the effect of altering the flow direction of light and thus inhibiting spontaneous propagation.
You can absorb harmful substances in order to attain the goal of evolution. For example, modified hollow-spherical silicona is efficient at adsorbing various toxic organic substances. This will allow you to separate and purify them.
Microstructure units are used as additives to improve the performance of materials. It is possible to combine the hollow structure with mesoporous structures in order to make hollow silica microspheres. It is highly effective in eliminating heavy metal ions as well as dye molecules from sewage.
To be used as a filler with structural materials or coatings
The hollow silica microscopic fillers are a key component of the light ablative materials that TPS uses. Silica hollow microspheres are a great addition to the resin matrix. They not only increase the mechanical and mechanical characteristics of the material but also reduce the density. This is an important factor in aerospace development. Additionally, silica hollow macrospheres can be added to friction equipment such as drill bits and bearings. This will increase its durability and lubricating ability.
Storage of Silicon Oxide SiO2 Hollow Nuspheres in Anode Material –
Silicon Oxide SiO2 Hollow Nanospheres will be affected by damp reunion. Therefore, vacuum packaging should be used to seal the product and keep it in a cool dry place. Silicon Oxide Hollow Nanospheres cannot be exposed to the air. SiO2 Hollow Nanospheres are not recommended to be exposed to stress.
Shipping and Packing of anode material Silicon Oxide SiO2 hollow nanospheres
Many types of packing are available depending on the number Silicon Oxide Hollow Nanospheres.
Silicon Oxide SiO2 hollow nanospheres packaging: 100g/bag/500g/bag/1kg/bag/or as requested
Silicon Oxide SiO2 hollow nanospheres shipping: will be shipped by sea, air or express once the payment has been received.
Silicon Oxide siO2 Hollow Nanospheres Properties
Quartz, silane, dioxo, Silicon (IV) Oxide, Cristobalite,
Silica, Crystalline silica, Dioxosilane
Silicon Oxide SiO2 Hollow Nanospheres Safety & Healthcare Information