Basic information Description structure and hydrogen bonding Application Synthesis Safety Supplier Related
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Molybdenum disulfide

Basic information Description structure and hydrogen bonding Application Synthesis Safety Supplier Related

Molybdenum disulfide Basic information

Product Name:
Molybdenum disulfide
Synonyms:
  • dag325
  • disulfuredemolybdene
  • molybdenumsulfide(mos2)
  • MOLYBDENUM(IV) SULFIDE POWDER EXTRA PU&
  • MOLYBDENUM(IV) SULFIDE, POWDER, <2 MICRO N, 99%
  • MOLYBDENUM(IV) SULFIDE, POWDER
  • MolybdenumDisulphidePowder
  • Molybdenum(IV) sulfide, 98.50%
CAS:
1317-33-5
MF:
MoS2
MW:
160.07
EINECS:
215-263-9
Product Categories:
  • agent
  • metal chalcogenides
  • Inorganics
  • 1317-33-5
Mol File:
1317-33-5.mol
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Molybdenum disulfide Chemical Properties

Melting point:
2375 °C
Density 
5.06 g/mL at 25 °C(lit.)
solubility 
insoluble in H2O; soluble in concentrated acid solutions
form 
powder
color 
Gray to dark gray or black
Specific Gravity
4.8
Odor
odorless
Water Solubility 
Soluble in hot sulfuric acid, and aquaregia. Insoluble in water, concentrated sulfuric acid and dilute acid.
Crystal Structure
MoS2 type
crystal system
Six sides
Merck 
14,6236
Boiling point:
100°C (water)
Space group
P63/mmc
Lattice constant
a/nmb/nmc/nmα/oβ/oγ/oV/nm3
0.31610.31611.229590901200.1064
Exposure limits
ACGIH: TWA 10 mg/m3; TWA 3 mg/m3
NIOSH: IDLH 5000 mg/m3
Stability:
Stable. Incompatible with oxidizing agents, acids.
InChIKey
CWQXQMHSOZUFJS-UHFFFAOYSA-N
CAS DataBase Reference
1317-33-5(CAS DataBase Reference)
EPA Substance Registry System
Molybdenum sulfide (MoS2) (1317-33-5)
Bandgap
1.23 eV
Electronic properties
2D Semiconductor
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Safety Information

Safety Statements 
22-24/25
WGK Germany 
-
RTECS 
QA4697000
TSCA 
Yes
HS Code 
28309090
Hazardous Substances Data
1317-33-5(Hazardous Substances Data)
Toxicity
LC50 inhalation in rat: > 2820mg/m3/4H

MSDS

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Molybdenum disulfide Usage And Synthesis

Description

Molybdenum disulfide (MoS2) is the most famous of the single layer transition metal dichalcogenide (TMD) family. MoS2 has been used in bulk for many years as a solid state lubricant, this is due to its low coefficient of friction in addition to its high chemical and thermal stability. All forms of MoS2 have a layered structure, in which a plane of molybdenum atoms is sandwiched by planes of sulfide ions. These three strata form a monolayer of MoS2. Bulk MoS2 consists of stacked monolayers, which are held together by weak van der Waals interactions.

structure and hydrogen bonding

Molybdenum disulfide belongs to a class of materials called 'transition metal dichalcogenides' (TMDCs). Materials in this class have the chemical formula MX2, where M is a transition metal atom (groups 4-12 in the periodic table) and X is a chalcogen (group 16).

The chemical formula of molybdenum disulfide is MoS2. The crystal structure of molybdenum disulfide (MoS2) takes the form of a hexagonal plane of S atoms on either side of a hexagonal plane of Mo atoms. These triple planes stack on top of each other, with strong covalent bonds between the Mo and S atoms, but weak van der Waals forcing holding layers together. This allows them to be mechanically separated to form 2-dimensional sheets of MoS2.

 

Application

MoS2 with particle sizes in the range of 1-100 μm is a common dry lubricant. Few alternatives exist that can confer the high lubricity and stability up to 350 °C in oxidizing environments. Sliding friction tests of  MoS2 using a pin on disc tester at low loads (0.1-2 N) give friction coefficient values of <0.1.

Molybdenum disulfide is often a component of blends and composites where low friction is sought. A variety of oils and greases are used, because they retain their lubricity even in cases of almost complete oil loss, thus finding a use in critical applications such as aircraft engines. When added to plastics, MoS2 forms a composite with improved strength as well as reduced friction. Polymers that have been flld with MoS2 include nylon (with the trade name Nylatron), Teflon, and Vespel. Self-lubricating composite coatings for high-temperature applications have been developed consisting of molybdenum disulfide and titanium nitride by chemical vapor deposition.

MoS2 is often used in two-stroke engines; e.g. motorcycle engines. It is also used in CV and universal joints. MoS2-coatings allow bullets easier passage through the rifle barrel causing less barrel fouling allowing the barrel to retain ballistic accuracy much longer. This resistance to barrel fouling comes at a cost of lower muzzle velocity with the same load due to a decreased chamber pressure. MoS2 is applied to bearings in ultra- high vacuum applications up to 10-9 torr (at -226 to 399 °C). The lubricant is applied by burnishing and the excess is wiped from the bearing surface.

MoS2 is also used in ski wax to prevent static buildup in dry snow conditions and to add glide when sliding in dirty snow. It is often used in two-stroke engines; e.g., motorcycle engines. MoS2 is also used in CV and universal joints. During the Vietnam War, the molybdenum disulfide product "Dri-Slide" was used to lubricate weapons, although it was supplied from private sources, not the military. MoS2 -coatings allow bullets easier passage through the rifle barrel with less deformation and better ballistic accuracy.

Synthesis

The preparation of MoS2 was carried out through modification of the method described in literature. All the chemicals were purchased and used as received. To start, 30 mL of 0.008 M ammonium molybdate ((NH4)6Mo7O24·4H2O, Merck India, 98%) solution was taken, and sodium dodecyl sulfate (SDS) of 10 times of cmc (critical micelle concentration) was added to it under constant stirring to obtain a clear solution. Then, 9.60 mL of 0.23 M sodium dithionite (Na2S2O4, BDH, England, 98% pure) solution and 45 mL of 0.20 M thioacetamide (CH3CSNH2, Spectrochem India, 99%) solution were added into the former solution and were thoroughly mixed together by stirring. The solution mixture was heated (~90°C) over a water bath to obtain a clear reddish yellow color solution. Acidification of this solution with concentrated HCl (pH < 1) led to a dark brown colored precipitate. The precipitate was isolated using a centrifuge and was washed with water for several times. Drying of the precipitate gave rise to brownish black powders, which were calcined at 400°C for 2 h under argon atmosphere to obtain the black powders of MoS2.

Application

As a result of its direct band-gap, single-layer MoS2?has received much interest for applications in electronic and optoelectronic devices (such as transistors, photodetectors, photovoltaics and light-emitting diodes). It is also being explored for applications in photonics, and can be combined with other TMDCs to create advanced heterostructured devices.

Synthesis

High quality molybdenum disulfide (MoS2) few-layer?films were grown directly on the substrates (SiO2/Si and Sapphire) by chemical vapour deposition (CVD) method. The films were later transferred to the desired substrates?using wet chemical transfer process.

Description

Few-layer molybdenum disulfide (MoS2) is considered to be one of the most attractive?materials?for next-generation nanoelectronics. This is due to its silicon-level charge mobility and high current on/off ratio in thin-film transistors. Compared to monolayer? MoS2 (which needs?a deposition of an additional high-k?dielectric layer such as HfO2), few-layer?MoS2 can be operated on its own. This makes it more appealing for fabricating transistors and other optoelectronic devices.

Preparation

Synthetic?- Chemical Vapour Transport (CVT)

Chemical Properties

dark grey or black powder,Molybdenum disulfide, MoS2, the most common natural form of molybdenum, is extracted from the ore and then purified for direct use in lubrication. Since molybdenum disulfide is of geothermal origin, it has the durability to withstand heat and pressure. This is particularly so if small amounts of sulfur are available to react with iron and provide a sulfide layer which is compatible with MoS2 in maintaining the lubricating film.

Uses

Dry lubricant and lubricant additive. Hydrogenation catalyst.

Uses

Molybdenum disulfide (MoS2) is one of the most widely used lubricants in space systems.it is a common additive that improves the antiseize properties of wheel bearing grease.Molybdenum disulfide (MoS2) has been used for many years as a solid lubricant because of its interesting friction-reducing properties related to its crystalline structure. MoS2 is a lamellar compound made of a stacking of S-Mo-S layers . In each of them, the molybdenum atom is surrounded by six sulfur atoms located at the top of a trigonal prism. The distance between a molybdenum atom and a sulfur atom is equal to 0.241 nm, whereas the distance between two sulfur atoms from two adjacent layers is equal to 0.349 nm. This characteristic was often used to explain easy cleavage between the layers and therefore the lubricating properties of MoS2.

Uses

In addition to serving as the primary natural source of molybdenum, purified molybdenum disulfide MoS2 is an excellent lubricant when in the form of a dry film, or as an additive to oil or grease. The compound also is used as a filler in nylons, and as an effective catalyst for hydrogenation-dehydrogenation reactions.

Definition

Natural molybdenum sul-fide found in igneous rocks and metallic veins.

General Description

Molybdenum disulfide is a two dimensional layered material. Monolayers of transition metal dichalcogenides (TMDs)exhibit photoconductivity. The layers of the TMD can be mechanically or chemicaly exfoliated to form nanosheets.

Hazard

Toxic material.

Molybdenum disulfideSupplier

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