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Tin disulfide dissolves in aqua regia or hot alkali solutions. It is also capable of undergoing coordination reaction with concentrated Hydrochloric Acid. However, it is insoluble and insoluble within dilute Hydrochloric Acid and insoluble in water. It can also react with ammonium-sulfide to disperse.
How to prepare Tin Disulfide
You can create Tin disulfide by directly mixing tin, sulfur and 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 it.
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, email@example.com microstructures were created through the sulfurization process. Raman, XRD (XRD) as well as transmission electron microscopy, (TEM), showed that the multi-walled carbon-nanotubes were about 400nm in length, the surface carbon layer had been crystallized and was approximately 10 nm thick. Sn firstname.lastname@example.org 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 the capacity maintains 703?mAh?g-1 even after 50 cycles. Brad@ihpa.net Nanostructured Electrodes have high-capacity properties due to the fact that different active materials provide the capacity together and that each material’s reaction platform is unique.
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 lithium-ion battery’s negatively electrode material, it has excellent electrochemical performance. 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. Although the SnS2 materials have a relatively high initial specific capability, they are slow to degrade and decay quickly 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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