High Purity Molybdenum Disulfide MoS2 Powder CAS 1317-33-5, 99%
Molybdenum is a disulfide. Molybdenite is a solid black powder with a metallic luster. Chemical formula MoS2, melting point 1185, density 4.80g/cm3 (14), Mohs hardness 1.0~1.5.Particle size 80nm, 1,5 microns, and 5 microns
Purity: 99%
Molybdenum Disulfide MoS2:
Molybdenum diulfide (Moly) is a.
Molybdenite is a component.
Molybdenum disulfide is a powder.
It is a black solid powder with metallic luster.
The chemical formula for molybdenum sulfide
It is called MoS2.
Molybdenum disulfide melting point
The temperature is 1185degC.
Molybdenum disulfide density
Mohs hardness is 1.01.5. Mohs Hardness: 1.01.5. At 1370degC the decomposition process begins. It decomposes at 1600degC into molybdenum metallic and sulfur. At 315degC it starts to oxidize in the air. As the temperature rises, the oxidation reactions accelerate.
Moly Disulfide
Insoluble in concentrated sulfuric and dilute acid, water or dilute acid. It is not soluble in alkalis or organic solvents. However, it is soluble with aqua regia, boiling concentrated sulfuric acids and other acids. At 400, it is slowly oxidized to produce molybdenum Trioxide.
Test the molybdenum reagent with 2MoS2+7O2- 2 MoO3+4SO2. After treating the product with sodium or potassium hydroxide solutions (the idea is to convert the molybdenum trioxide into molybdate), the titanium iron solution is then added dropwise. This will react with the sodium or potassium molybdate generated to produce a gold yellow solution. This method is sensitive enough to detect traces of molybdate. The solution will not turn golden yellow if no molybdenum dioxide is generated. This is because molybdenum sulfide reacts with either sodium or potassium hydroxide.
Moly sulfide
Can react with chloride when heated to form molybdenum penteachloride
2 MoS2+ 7 Cl2- 2 MoCl5+ 2 S2Cl2
LixMoS2 (interlayer compound), a compound formed by the reaction of molybdenum disulfide with alkyl lithium, can be produced under controlled conditions. LiMoS2 will be formed if the reaction is with butyllithium.
Molybdenum Disulfide is a disulfide with a high sulfur content. This active sulfur can easily cause copper to corrode. In many books and articles on lubricant add-ons, it is mentioned. When parts made of copper or its alloys are to be lubricated it is possible to use molybdenum diulfide products as well as to add copper corrosion inhibiters.
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Molybdenum disulfide MoS2 Powder
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Features of Molybdenum Disulfide MoS2:
1. Molybdenum Disulphide Nanoparticles CAS 1317-33-5 (Nano MoS2) are shiny dark gray particles with very good thermal and chemical stability.
2. It is soluble in aqua regia, concentrated sulfuric acid and water. However, it is insoluble in dilute acids and water.
3. The lubricant adhesion can form an extremely efficient dry lubricating coating; it is less wear and friction-reducing technology.
Analysis of Molybdenum Disulfide MoS2:
MoS2
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MoO3
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Insolubles
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Fe
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SiO2
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H2O
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Oil
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Acid Value
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99%
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0.05%
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0.26%
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0.14%
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0.05%
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0.08%
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0.10%
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0.54
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How do you pronounce
Molybdenum Disulfide MoS2 Poudre
produced?
Natural law
MoS2 may be produced by natural methods, such as the molybdenite concentration purification method. The molybdenite concentrator is subjected to physical and chemical reactions to remove acid-insoluble materials, including SiO2, Fe, and Cu. Ca, Pb and impurities such as copper are refined further to get nano-MoS2. Although the nano-MoS2 obtained by natural means is of a lower purity, it can be purified further. If the temperature of the atmosphere is less than 400 degrees, the most expensive MoS2 should be used. It has a high lubricating capacity below 1300. Therefore, it is recommended that you use the MoS2 based on cost.
Chemical Synthesis
The synthetic method is able to prepare sulfides which are high in purity, have fewer impurities, as well as finer particles. It can also produce sulfides which meet various functional requirements. Synthetic methods have always been used to produce nano sulfides. There are several methods of preparing nano-MoS2, for example, the thermal decomposition of ammonium, the hydrogen sulfide, or sulfur reduction method. Other methods include high-energy milling, carbon nanotube confinement, hydrothermal method, physical method with chemical method combination, and high-energy method.
Molybdenum Diulfide:
It is diamagnetic and can be used to convert semiconductors or photoconductors that have a P-type of N-type conductivity.
Molybdenum isothiocyanate can be synthesized for use as a dehydrogenation catalyst.
Molybdenum diulfide has also been referred to as "the King of Advanced Solid Lubricants".
Molybdenum diulfide is an inorganic powder that's made from molybdenum concentrate, which has been chemically purified through a change in the molecular composition.
Molybdenum Disulfide disperses well and is not required to be added. It is added to greases as a colloidal phase and does not replace the original grease.
Molybdenum diulfide also extends the service life of equipment by being suitable for high temperatures, high pressures, viscosity high loads and high viscosities.
Molybdenum Disulfide is a good friction material because it reduces friction at low temperatures. It also increases friction at higher temperatures. The friction material is easily volatilized.
Anti-friction: Because the size of the disulfide particle formed by supersonic Jet Pulverization can reach 325-2500 Mesh, the particle hardness can reach 1-1.5, and its friction coefficient can range from 0.05-0.1 it can be applied to friction materials for the antifriction effect.
Molybdenum dioxide is a non-conductive material. Molybdenum, trisulfide or trioxide, as well as silicon carbide can cause increased friction. When the temperature of a friction material increases sharply because of friction, the molybdenum dioxide particles that are shrinking gradually heat up and increase the friction in an axial direction.
Antioxidant : Molybdenum Disulfide, obtained from a chemical purification, has a pH of 7-8. It is slightly alkaline. It is a coating that protects other materials from oxidation.
Store Molybdenum Disulfide MoS2 in the following conditions:
Molybdenum Disulfide MoS2 Pulp will be affected by dampness, so it is important to store the powder in a dry and cool room. Molybdenum Disulfide should not be exposed to stress.
Packing & Shipping Molybdenum Disulfide MoS2:
The packaging depends on the amount of Molybdenum Disulfide MoS2 POWDER.
Molybdenum Disulfide MoS2 Poudre packing: 100g, 500g, 1kg/bag; 25kg/barrel.
Molybdenum Disulfide MoS2 Pulfide shipping: Could be shipped by sea, by air or by express as quickly as possible after receipt of payment.
Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with over 12 years' experience in the production of high-quality nanomaterials. These include boride powders, graphite or nitride particles, as well as sulfide and sulfide-based powders for 3D printers.
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Molybdenum Diulfide Properties
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Alternative Names
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molybdenum sulfide, molybdenum disulphide,
Moly disulfide, or molysulfide, powder
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CAS Number
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1317-33-5
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Compound Formula
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MoS2
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Molecular Mass
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160.07
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Appearance
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Black Powder
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Melting Point
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1185 degC
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Boiling Point
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N/A
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Density
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5.06 g/cm3
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Solubility In H2O
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Insoluble
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Storage Temperature
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Ambient temperatures
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Exact Volume
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161.849549
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Monoisotopic Mash
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161.849549
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Molybdenum Disulfide Safety & Security Information
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Sign Word
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Warning
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Hazard Statements
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H315-H319-H335
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Hazard Codes
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Xi
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Risk Codes
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N/A
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Safety Declarations
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N/A
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RTECS Number
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QA4697000
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Transport Information
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NONH for All Transport Modes
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WGK Germany
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3
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