Tin Telluride (IV-VII compound semiconductor material) is made of IVA element Sn, and VIA component TE. SnTe is its molecular formula.
Particle Size: -80mesh and -100mesh
Purity: 99.99%
about Tin telluride SNTE
Tin Telluride (IV-VI) compound semiconductor material is made of IVA element Sn, VIA element T. The molecular formula of SNTE. It is an irradiating type that transmits at 0.60 eV.
Tin Telluride can be described as a semiconductor substance. A sodium chloride structure and ionic crystals have a covalent bond component. Density 6.48g / cm3, melting 780 degrees Celsius. The material is made using an epitaxial and straight pull methods.
Tin Telluride is often alloyed with lead tiny lisuride to create the infrared detection material. Tin Telluride forms an external semiconductor, the p type (external semiconductor), due to its tin air spaces.
Tin Telluride can be found in all three phases of the crystal. Low temperatures result in a concentration of less than 1.5 x 10-20 cm-3 for the aperture carrier. Also known as the a-SNET, this is the diamond phase. The NaCl samples are labelled b-SNE. Tin TELLURIDE, which is found at room temperature and atmospheric press, can be detected in NaCl samples. However, the bSNTE can still be transformed to gSNTE. This phase change causes an 11% rise in the resistance and 360% increase in the strength of the g-SNET. Teti, a thermoelectric substance, is also known as Teti. Research suggests that the n-type performance might be very good. If you are interested in buying Tin telluride, SnTe powder wholesale, please send us an inquiry.
Tin telluride SnTe powder features :
Keep the mixture at room temperature and low pressure. Use caution around open flames, heat, and light. Use semiconductor-based water to dissolve.
Description of Tin telluride Te powder :
Product
|
Purity
|
APS
|
The color of the sky
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The Shape
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Density (g/mL 25, 25)
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Melting Point
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Crystal Structure
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Tr-SnTe
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99.99%-99.9999%
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100mesh
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Gray cubic crystal
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powder,granule
Block
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6.5
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790degC
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Cubic
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You can order different products depending on your requirements.
How does Tin telluride snTe be produced?
1. The high-pure, ruthenium and high-purity Tin were weighed. After placing the ampoule into a furnace to warm (about 50°C / h) and heating for 72 hours, seal the container under high vacuum (10-5 Pa).
2. The high-pure tin, ruthenium and chemical measurement ratios should be weighed. Place the ampoule into a cold oven, quickly heat (about 200 degrees C/h of 810 degree C), and let cool for about 15 hours.
3. As the electrolytic cells, use 1 L of the round-neck three-neck flask. You should seal the glass and metal. This port allows you to connect and add the mechanical vacuum pump. Electrolysis is performed by placing the magnetic stirrer inside the bottle in the botulfluoroethylene. An NH4AC–HAC buffer solution is used. To bring the pH up to 4.5, you can add 500 ml (1 mol /L) ammonia. To start electrolysis, you must place the electrolyte and electrode in a vacuum. After 30 minutes, stir the magnet force for 30 seconds to cause it to become weaker. In the anode, SnTe is precipitated in Sn2 + solution.
4. You can also add the electrolyte to the anode. The metal salt solution (such a chloride) is then added dropwise.
The electrolyte's precipitate is heated in an argon environment to encourage precipitation. You must not let crystallization be made in the air. After crystallization, remove it from air. The crystals can then be washed, centrifuged, dried at 120 degrees C, for 4 hours, and then dried with an argon flow.
Application Tin Telluride SnTe Dust:
Use high-purity inorganics in electronics for display, screen, and catalyst.
Packing & Shipping Tin telluride SnTe powder -
There are many options for packing, depending on Tin Telluride SnTe Powder quantity.
Tin telluride powder packaging: vacuum packaging, 100g to 500g or 1kg/bag for 25kg/barrel. Or as you request.
Shipping Tin Telluride, SnTe, Powder shipping: it can be shipped by sea, air or express, once the payment has been received.