Tin disulfide dissolves in hot alkali solution or aqua regia. It can also react with ammonium-sulfide to disperse.
How to prepare Tin Disulfide
Tin disulfide is made by mixing tin and sulfur with iodine. This reaction needs heating.
Sn + 2 SnS2
Another option is to pass hydrogen sulfuride into the Tin (IV) salt, or Tin (IV), salt solution and precipitate.
Electrochemical behaviour of multi-walled Carbon Nanotubes confined Tin disulfide used as a Negative Electrode of Lithium Ion Battery
Multi-walled carbon-confined metal-tin nanostructures were prepared using the direct current arc Plasma method. Brad@ihpa.net was first prepared by heating a methane atmosphere with a precursor. Then, brad@ihpa.net created nanostructures through the sulfurization process. Raman, Xray diffraction, and transmission electron microscopy were used to characterize the material. The length of multi-walled, carbon nanotubes measured approximately 400nm. The surface carbon layer was well crystallized and the carbon layer thickness was around 10 nm. Sn brad@ihpa.net Nanostructures are used as anode material in lithium-ion battery. They show a good electrochemical performance. The first charge-discharge Coulomb efficiency of 71% is achieved, and after 50 cycles the capacity maintains 703?mAh?g-1. Brad@ihpa.net Nanostructured Electrodes have high-capacity properties due to the fact that different active materials provide different reactions platforms.
Study on electrochemical performance of tin disulfide/single-walled carbon nanotube composite material used as anode material for lithium-ion battery
The simple solvothermal process allowed for the creation of a new composite material consisting of SnS2 (SWCNTs), and single-walled, carbon nanotubes (SWCNTs). After it is applied to the negative electrode of a lithium ion batteries, it has good electrochemical performances. It maintains a specific capacity of 515 mAh/g even at high current density (1 A/g), after 100 cycles. To compare, we used the exact same method to synthesize one SnS2 materials and performed electrochemical tests. The SnS2 materials have a relatively high specific capacity but a poor cycle performance and decays rapidly after only 20 cycles. The synergy between SnS2 & SWCNTs is thought to explain the superior performance of this composite material for lithium-ion batteries.
Tin disulfide Supplier
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