About Tin telluride SnTe powder:
Tin Telluride, IV-VI compound semiconductor material, is compounded from IVA element Sn and VIA element TE. The molecular formula is SNTE. The banned bandwidth is 0.60 eV, which is a direct transmitting type.
Tin Telluride is a semiconductor compound. Sodium chloride structure, ionic crystals, have a certain covalent bond component. Density 6.48g / cm3, melting 780 degrees Celsius. It is prepared by a straight pull method and an epitaxial method for making an infrared detector.
Tin Telluride is usually alloyed to make the lead tiny lisuride, which is used as infrared detector material. Tin Telluride typically forms a p-type semiconductor (external semiconductor) due to tin air space and is a low-temperature superconductor.
Tin Telluride exists in three crystal stages. At low temperatures, the concentration of the aperture carrier is less than 1.5 × 10 20 cm-3, which is also referred to as the α-SNET in the diamond phase. At room temperature and atmospheric pressure, tin TELLURIDE is present in the NaCl samples, called β-SNE. Although the β-SNTE is converted to γ-SNTE, γ-SNTE, orthogonal phase, and spatial group PNMA. The phase change is characterized by an increase of 11% and the resistance of the γ-SNET increases by 360%. Teti is a thermoelectric material. Theoretical research means that n-type performance may be particularly good. Feel free to send an inquiry to get the latest price if you would like to buy Tin telluride SnTe powder in bulk.
Features of Tin telluride SnTe powder :
Steady at room temperature and pressure. Avoid light, open flame, high temperature. Do not dissolve in water, with semiconductor properties
Specification of Tin telluride SnTe powder :
Item | Purity | APS | Color | Shape | Density (g/mL, 25 ℃) | Melting Point | Crystal Structure |
Tr-SnTe | 99.99%-99.9999% | 100mesh | Gray cubic crystal | powder,granule Block | 6.5 | 790°C | Cubic |
Note: according to user requirements can provide different size products.
How is Tin telluride SnTe powder produced?
1. Weigh the high-pure tin and ruthenium of the chemical measurement ratio, put into a clean quartz ampoule, seal under high vacuum (about 10-5 Pa). The ampoule was placed in a cold furnace, slowly warming (about 50 ° C / h) to 435 ° C, heating 72 h. Turn off the furnace, so that the ampoule is slowly cooled, cold until at room temperature, resulting in high purity SnTe.
2. Weigh the high-pure tin and ruthenium of the chemical measurement ratio, put into a clean quartz ampoule, seal under high vacuum (about 10-5 Pa). The ampoule was placed in a cold furnace, rapidly warming (about 200 ° C / h) of 810 ° C, and heated for 5 h. Start cooling, the ampoule is slowly cooled (about 50 ° C / h), cold to room temperature for nearly 15 hours to obtain high purity SnTe.
3. Use 1 L of the three-neck round bottom flask as the electrolytic cell, the cathode is 5 mm in diameter, 7cm long 7 cm, purity, 99.99% semiconductor material level, the anode is a bottle of the cylindrical high purity tin, the electrode is inserted into the flask. The metal and glass should be sealed. The middle bottle port is used to add and connect the mechanical vacuum pump for exhaust gas. The magnetic stirrer in the bottle is placed in the botulfluoroethylene is stirred during electrolysis. The electrolyte is an NH4AC-HAC buffer solution (add 500 ml of 1 mol / L ammonia to a pH to a pH of 4.5.). The flask of the electrode and the electrolyte should be a vacuum, and the magnetic force is stirred for 30 min to degenerate, determine the high vacuum, start electrolysis. The anode is generated in the anode to generate SnTe precipitation in a solution of Sn2 +, cathode peers.
4. Also added in the electrolyte can also be added to the anode, and the metal salt solution (such as chloride) is added dropwise, and the experiment is carried out in 101.325 kPa pure argon with platinum.
In order to promote precipitation condense, the precipitate in the electrolyte is boiled in an argon atmosphere. In order to prevent oxidation, do not allow crystallization to be exposed to air until the crystal is exposed to air, washing crystals, centrifugation, and dried in an argon flow at 120 ° C for 4 h.
Application of Tin telluride SnTe Powder:
High purity inorganics, widely used in electronics, display, solar cell, crystal growth, functional ceramics, batteries, LED, thin-film growth, catalyst, etc.
Packing & Shipping of Tin telluride SnTe powder :
We have many different kinds of packing which depend on the Tin telluride SnTe powder quantity.
Tin telluride SnTe powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Tin telluride SnTe powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Tin Telluride SnTe Powder Properties | |
Other Names | Tin Telluride, SnTe Powder, Cas 12040-02-7, Tellanylidenestannane, Tellanylidenetin, Tin(II) Telluride |
CAS No. | 12040-02-7 |
Compound Formula | SnTe |
Molecular Weight | 246.31 |
Appearance | grey crystalline solid |
Melting Point | 790 °C (1454 °F) |
Solubility in water | N/A |
Density | 6500 kg m3 |
Purity | 99.99% |
Particle Size | -80mesh, -100mesh |
Boling point | N/A |
Specific Heat | N/A |
Thermal Conductivity | N/A |
Thermal Expansion | N/A |
Young’s Modulus | N/A |
Exact Mass | 251.824 g/mol |
Monoisotopic Mass | 253.839722 Da |
Tin Telluride SnTe Powder Health & Safety Information | |
Safety Warning | N/A |
Hazard Statements | N/A |
Flashing point | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety Statements | N/A |
RTECS Number | N/A |
Transport Information | N/A |
WGK Germany | N/A |
Inquiry us