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PGMS Propylene glycol monostearate CAS 1323-39-3

About PGMS Propylene glycol monostearate:
White powder or flake solid, insoluble in water, soluble in ethanol and other organic solvents, is a non-ionic emulsifier.
Tungstenmolybdenummetals is a trusted global PGMS Propylene glycol monostearate. Feel free to send an inquiry to get the latest price of PGMS Propylene glycol monostearate if you would like to buy PGMS Propylene glycol monostearate in bulk.

Product Performance of PGMS Propylene glycol monostearate:
White powder or flake solid, insoluble in water, soluble in ethanol and other organic solvents, is a non-ionic emulsifier.

Technical Parameter of PGMS Propylene glycol monostearate:

Product Name    Short Name   Purity       PH    OdorAppearance  
 Propylene glycol monostearatePGMSN/AN/AN/AWhite powder or flake solid


Applications of PGMS Propylene glycol monostearate:

White powder or flake solid, insoluble in water, soluble in ethanol and other organic solvents, is a non-ionic emulsifier.
Applied in cosmetics, can be used as an emulsifier, defoamer, stabilizer. As an emulsifier, the HLB value is small, emulsifying activity is not strong, rarely used alone, often used with mono-diglycerides and other emulsifiers, play a synergistic effect.


Packing & Shipping of PGMS Propylene glycol monostearate:
We have many different kinds of packing which depend on PGMS Propylene glycol monostearate quantity.
PGMS Propylene glycol monostearate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
PGMS Propylene glycol monostearate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

PGMS Propylene glycol monostearate CAS 1323-39-3插图

PGMS Propylene glycol monostearate Properties

Other NamesPropylene glycol fatty acid ester;
Propylene glycol ester
CAS No.1323-39-3
Compound FormulaC21H42O3
Molecular Weight342.56
AppearanceWhite powder or flake solid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

PGMS Propylene glycol monostearate Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About PGMS Propylene glycol monostearate:White powder or flake solid, insoluble in water, soluble in ethanol and other organic solvents, is a non-ionic emulsifier.Tungstenmolybdenummetals is a […]

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Semi-branched C11-13 AlcoholSulphate

About Semi-branched C11-13 AlcoholSulphate:
Semi-branched C11-13 AlcoholSulphate is a high-performance anionic surfactant with excellent decontamination, dispersion, emulsification, foaming performance.
Tungstenmolybdenummetals is a trusted global Semi-branched C11-13 AlcoholSulphate. Feel free to send an inquiry to get the latest price of Semi-branched C11-13 AlcoholSulphate if you would like to buy Semi-branched C11-13 AlcoholSulphate in bulk.

Product Performance of Semi-branched C11-13 AlcoholSulphate:
Semi-branched C11-13 AlcoholSulphate has good resistance to hard water and good low temperature resistance.

Technical Parameter of Semi-branched C11-13 AlcoholSulphate:

Product Name    Short Name   Purity       PH    OdorAppearance  
Semi-branched C11-13 AlcoholSulphateN/A22%7.0-8.5Slightly characteristic odorTransparent liquid


Applications of Semi-branched C11-13 AlcoholSulphate:
Semi-branched C11-13 AlcoholSulphate can be used as an emulsifier in various detergents, cleaning agents, foaming agents, foaming agents, air-entraining agent formulations in emulsion polymerization and other fields.

Packing & Shipping of Semi-branched C11-13 AlcoholSulphate:
We have many different kinds of packing which depend on Semi-branched C11-13 AlcoholSulphate quantity.
Semi-branched C11-13 AlcoholSulphate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
Semi-branched C11-13 AlcoholSulphate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Semi-branched C11-13 AlcoholSulphate插图

Semi-branched C11-13 AlcoholSulphate Properties

Other NamesN/A
CAS No.N/A
Compound FormulaROSO3Na
Molecular WeightN/A
AppearanceTransparent liquid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Semi-branched C11-13 AlcoholSulphate Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About Semi-branched C11-13 AlcoholSulphate:Semi-branched C11-13 AlcoholSulphate is a high-performance anionic surfactant with excellent decontamination, dispersion, emulsification, foaming performance.Tungstenmolybdenummetals is a trusted global Semi-branched C11-13 AlcoholSulphate. Feel […]

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ODEP Octyl Decyl Alcohol Ethoxylate Phosphate

About ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:
ODEP Octyl Decyl Alcohol Ethoxylate Phosphate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and good biodegradability.
Tungstenmolybdenummetals is a trusted global ODEP Octyl Decyl Alcohol Ethoxylate Phosphate. Feel free to send an inquiry to get the latest price of ODEP Octyl Decyl Alcohol Ethoxylate Phosphate if you would like to buy ODEP Octyl Decyl Alcohol Ethoxylate Phosphate in bulk.

Product Performance of ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:
ODEP Octyl Decyl Alcohol Ethoxylate Phosphate can improve the combability and softness of the hair, and its mild decontamination performance makes the skin comfortable after washing.

Technical Parameter of ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:

Product Name    Short NameEffective substance content    PH    OdorAppearance  
Octyl Decyl Alcohol Ethoxylate Phosphate ODEP95%1-3Slight characteristic odorSlightly yellow to colorless viscous substance


Applications of ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:

Easily soluble in water, it has strong alkali resistance (200gNaOH/L), high temperature resistance, oxidant resistance, reducing agent resistance, hard water resistance, and penetration; it also has penetration, emulsification, degreasing, cleaning, dispersion and resistance under strong alkali conditions. Electrostatic ability. Mainly used as anti-alkali scouring agent, penetrant, degreasing agent, etc.

Packing & Shipping of ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:
We have many different kinds of packing which depend on ODEP Octyl Decyl Alcohol Ethoxylate Phosphate quantity.
ODEP Octyl Decyl Alcohol Ethoxylate Phosphate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
ODEP Octyl Decyl Alcohol Ethoxylate Phosphate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

ODEP Octyl Decyl Alcohol Ethoxylate Phosphate插图

ODEP Octyl Decyl Alcohol Ethoxylate Phosphate Properties

Other NamesN/A
CAS No.N/A
Compound FormulaN/A
Molecular WeightN/A
AppearanceNA
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

ODEP Octyl Decyl Alcohol Ethoxylate Phosphate Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About ODEP Octyl Decyl Alcohol Ethoxylate Phosphate:ODEP Octyl Decyl Alcohol Ethoxylate Phosphate has the characteristics of rich and fine foam, low degreasing power, low irritation […]

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C12-16 Alcohol ethoxypropoxylates CAS 68213-24-1

About C12-16 Alcohol ethoxypropoxylates:
Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.
Tungstenmolybdenummetals is a trusted global Guerbet C12 alcohol ethoxylate. Feel free to send an inquiry to get the latest price of C12-16 Alcohol ethoxypropoxylates.  If you would like to buy C12-16 Alcohol ethoxypropoxylates in bulk.

Product Performance of C12-16 Alcohol ethoxypropoxylates:

Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.
 

Technical Parameter of C12-16 Alcohol ethoxypropoxylates:

Appearance(25℃)Colorless liquid
Content(%)99
Cloud point(1%Aqueous solution,℃)35-38
Density(kg/m31001
ph(25℃,1%Aqueous solution)5-7


Applications of C12-16 Alcohol ethoxypropoxylates:

CIP cleaning, low bubble cleaning, metal cleaning, glass cleaning, general cleaning agent.

 

Packing & Shipping of C12-16 Alcohol ethoxypropoxylates:
We have many different kinds of packing which depend on C12-16 Alcohol ethoxypropoxylates quantity.
C12-16 Alcohol ethoxypropoxylates packing: C12-16 Alcohol ethoxypropoxylates kg/bottle, 25kg/barrel, or 200kg/ barrel.
C12-16 Alcohol ethoxypropoxylates shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

C12-16 Alcohol ethoxypropoxylates CAS 68213-24-1插图

C12-16 Alcohol ethoxypropoxylates Properties

Other NamesC12-16 alcohol ethoxy propoxy compound
CAS No.68213-24-1
Compound FormulaN/A
Molecular WeightN/A
AppearanceColorless liquid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A
C12-16 Alcohol ethoxypropoxylates Health& Safety Information
Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About C12-16 Alcohol ethoxypropoxylates:Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.Tungstenmolybdenummetals is a trusted global Guerbet C12 alcohol ethoxylate. Feel free to […]

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V2AlC: an Important Material for the Production of MXenes

MXenes: The Emergence Development of new materials for energy has provided hope and solutions to energy-related problems. It has also spawned many new industries and new storage systems. Electrochemical performance, safety and future development of batteries are all affected by their composition. Current electrode materials are low in conductivity and surface activity. Direct contact with electrolyte can cause material destruction, poor structure, electrochemical stability and material damage. These factors adversely affect electrode material performance. Novoselov et al. Two-dimensional graphene microsheets exfoliated from graphite. Graphene exhibits excellent electrical conductivity and thermal conductivity. It offers excellent electrochemical performances and has great potential for new energy battery applications. Although graphene’s excellent performance has drawn much attention, two-dimensional materials are limited in their application due to its high production cost and difficulties. It is important to search for graphene-like materials in two dimensions that have better performance than graphene. They are easy to procure and safe. Two-dimensional material refers to crystal materials having a thickness that is only one or few atoms. Because of its extraordinary electrical, magnetic, mechanical and thermal properties, graphene has been a hotbed of research. The discovery of MXenes-a two-dimensional new material has brought many more members into the two-dimensional family. Transition metal carbide and nitride called MXenes are prepared by selectively cutting the A layer of the MAX phases using a chemical liquidphase method. The structure of MXenes is very similar to graphene. It has the general formula Mn+1XnTz, where M is a transitional metal element and X is carbon, or nitrogen. Tz is for functional groups like OH, O F, n=1,2,3. From the structure and performance point of view, MXene is a kind of “conductive hydrophilic clay”, Its unique advantages such as high electrical conductivity/thermal conductivity/specific surface area and good mechanical properties give MXene materials unique advantages in the electrochemical field. MXene has attracted significant attention due to its exceptional structure and performance.

V2AlC Prepares MXenes

V2AlC, a member the MAX phase is used principally in the manufacture of MXenes by etching. A method exists to mix the fluoride and hydrochloric alike uniformly. Next, add V2AlC powder and stir the mixture. Place the solution in an environment that is at least 68°C and wait for it to react. Finally, dry the solution in a vacuum at a specific temperature for a specified time. Two-dimensional vanadium carbonide can be prepared using this technique. This avoids the need to use strong corrosive or highly toxic hydrofluoric Acid.

MXenes Has Broad Application Prospects

Because of its unique structure and properties, two-dimensional material plays an important part in energy storage, conversion, adsorption, separation. MXenes may be utilized in other fields as well. V2AlC etching MXenes gives good results, making them a highly promising MAX Phase material. Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical materials. V2AlC manufactured by our company is of high purity, small particles size and low impurity. We can help you if the purity is lower.
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MXenes: The Emergence Development of new materials for energy has provided hope and solutions to energy-related problems. It has also spawned many new industries and […]

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Tetradecyl dimethylamine oxide CAS 3332-27-2

About Tetradecyl dimethylamine oxide CAS 3332-27-2:
Foaming, foam stabilization, oxidation resistance, decontamination, thickening.
Tungstenmolybdenummetals is a trusted global Tetradecyl dimethylamine oxide CAS 3332-27-2. Feel free to send an inquiry to get the latest price of Tetradecyl dimethylamine oxide CAS 3332-27-2. If you would like to buy Tetradecyl dimethylamine oxide CAS 3332-27-2 in bulk.

Product Performance of Tetradecyl dimethylamine oxide CAS 3332-27-2:
Foaming, foam stabilization, oxidation resistance, decontamination, thickening

Technical Parameter of Tetradecyl dimethylamine oxide CAS 3332-27-2:

Product Name    Short NameEffective substance content    PH    OdorAppearance  
Tetradecyl dimethylamine oxideAromox 14D-W97024-26%7-8N/AColorless to slightly yellow liquid


Applications of Tetradecyl dimethylamine oxide CAS 3332-27-2:

It can be used in alkaline cleaners, cleaners containing hypochlorite, foaming agents, foam cleaners, etc.

Packing & Shipping of Tetradecyl dimethylamine oxide CAS 3332-27-2:
We have many different kinds of packing which depend on Tetradecyl dimethylamine oxide CAS 3332-27-2 quantity.
Tetradecyl dimethylamine oxide CAS 3332-27-2 packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
Tetradecyl dimethylamine oxide CAS 3332-27-2 shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Tetradecyl dimethylamine oxide CAS 3332-27-2插图

Tetradecyl dimethylamine oxide CAS 3332-27-2 Properties

Other NamesAromox 14D-W970
CAS No.3332-27-2
Compound FormulaN/A
Molecular WeightN/A
AppearanceColorless to slightly yellow liquid
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Tetradecyl dimethylamine oxide CAS 3332-27-2 Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
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Safety StatementsN/A
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About Tetradecyl dimethylamine oxide CAS 3332-27-2:Foaming, foam stabilization, oxidation resistance, decontamination, thickening.Tungstenmolybdenummetals is a trusted global Tetradecyl dimethylamine oxide CAS 3332-27-2. Feel free to send an […]

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Determinants of the Performance of Lithium Battery Negative Electrodes

Work Principle and Composition of the Lithium Battery The lithium-ion secondary battery, is rechargeable and can be used to charge a variety of devices. It mainly consists five major parts: current collector, initial, continuous. continuous. twisted. alternating.

It is important that lithium ions are more easily extracted and inserted in order to achieve the charge/discharge functions.

Through the electrolyte, lithium ions can be extracted from the electrode material to charge it. While electrons are flowing out of the positive electrode material through an external circuit, they flow to the opposite electrode. After the lithium battery has been discharged, lithium-ions are taken from the negatively charged electrode and embedded through the electrolyte. The external circuit allows electrons to flow through the material of the positive electrode.

What’s the Anode Material for Lithium Battery?

Negative electrode materials are the carriers of lithium ions, electrons during the battery charging process and play the function of energy storage or release. It plays a vital role in power battery safety and performance.

An ideal material for negative electrodes must meet at least these 7 conditions

1. This low chemical potential creates large potential differences with the cathode, creating a high power battery. 2. You need to have an increased specific cycle limit. 3. Li+ should be easily introduced and extracted from the material of the negative electrode. This will allow for a stable charge and higher discharge voltage in the Li+ extraction process. 4. It exhibits good electronic conductivity as well as ion conductivity. 5. It’s stable, and it is compatible with some other electrolytes. 6. Materials should have a rich source, be inexpensive, and easy to make. 7. You can be sure that your home is clean, safe and green.

It is rare to find anode materials that fulfill the requirements above. This makes it a difficult task for researchers in lithium battery research to develop new materials.

What does an ideal Anode Material look like?

The first is that it features a low discharge platform. This allows for a range of positive electromaterials to combine with it and form secondary batteries with high discharge voltages. This keeps many materials from the door. Second, it has a much porous structure which can hold lithium ions. The molecular weight is also very small. This does not just depend on the material type, but also its physical structure. The difference between carbon and silicon materials is not negligible. If the technological tools are advanced to the point where they can manipulate both the molecular structure and the atomic structure, then the structure will become more significant than the atomic type. It is also important to consider the chemical stability, structural stability, and stability. This affects battery safety and battery life. This requirement means that the safety of any power battery must be the first priority. Materials should be easily available, or in other words, cheap. While many of the new products will initially be costly, as production increases, so does the cost to produce them. It is best to use the graphite-anode lithium batteries. Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical material. We produce high-purity, small particles and low impurity battery anodes . We can help you if the price is lower.
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Work Principle and Composition of the Lithium Battery The lithium-ion secondary battery, is rechargeable and can be used to charge a variety of devices. It […]

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ALS Ammonium Lauryl Sulfate CAS 2235-54-3

About ALS Ammonium Lauryl Sulfate:
Ammonium Lauryl Sulfate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and good biodegradability.
Tungstenmolybdenummetals is a trusted global ALS Ammonium Lauryl Sulfate. Feel free to send an inquiry to get the latest price of ALS Ammonium Lauryl Sulfate if you would like to buy Ammonium Lauryl Sulfate in bulk.

Product Performance of ALS Ammonium Lauryl Sulfate:
Ammonium Lauryl Sulfate can improve the combability and softness of the hair, and its mild decontamination performance makes the skin comfortable after washing.

Technical Parameter of ALS Ammonium Lauryl Sulfate:

Product Name    Short Name   Purity       PH    OdorAppearance  
Ammonium Lauryl SulfateALS68%-72%5.5-7.0Slight characteristic odorGel-like paste


Applications of ALS Ammonium Lauryl Sulfate:
Ammonium Lauryl Sulfate is suitable for high-end shampoos, foam baths, children’s shampoos, hand sanitizers and other foaming washing products. It is used synergistically with fatty alcohol ether ammonium sulfate (AESA), and the effect is better. This product is not suitable for alkaline systems. The recommended dosage is 5-30%.


Packing & Shipping of ALS Ammonium Lauryl Sulfate:
We have many different kinds of packing which depend on ALS Ammonium Lauryl Sulfate quantity.
ALS Ammonium Lauryl Sulfate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
ALS Ammonium Lauryl Sulfate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

ALS Ammonium Lauryl Sulfate CAS 2235-54-3插图

Ammonium Lauryl Sulfate Properties

Other NamesN/A
CAS No.2235-54-3
Compound FormulaROSO3NH4
Molecular WeightN/A
AppearanceGel-like paste
Melting PointN/A
Boiling PointN/A
DensityN/A
Solubility in H2ON/A
Exact MassN/A

Ammonium Lauryl Sulfate Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About ALS Ammonium Lauryl Sulfate:Ammonium Lauryl Sulfate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and […]

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Lithium Battery Anode Material Few Layer Graphene CAS 1034343-98-0

About Lithium Battery Anode Material Few Layer Graphene:
What is few layer graphene? The few graphene layers are made up of ultra-thin layers of carbon atoms arranged in a hexagonal honeycomb lattice. Graphene films produced by chemical vapor deposition (CVD) are polycrystalline in nature, with multiple small graphene domains growing and merging into a continuous film. 


Compared to single-layer graphene material, fewer layers have the potential to develop into materials or heterostructures — by inserting different substances into their layered structures. Low-layer graphene inherits the original crystal structure and properties of natural flake graphite. It has a very large shape ratio (diameter/thickness ratio) with excellent electrical, thermal and mechanical properties. It has excellent conductivity, lubrication, corrosion resistance, high-temperature resistance and so on. Small layers of graphene have a specific surface of 400 ~ 700㎡/g and a thickness of 0.55 ~ 3.74nm. 


Graphene has a high specific surface. Easy and other materials such as polymer material uniform composite, and form a good composite interface. The company’s low-layer graphene products have formed large-scale industrial production capacity.


As an excellent basic material for the preparation of functional composites on an industrial scale, graphene with fewer layers will play an important role in the new round of the industrial revolution. Graphite flakes attached to inorganic nanoparticles can not only effectively prevent them from repeatedly stacking during chemical reduction.


In addition, it can also promote the formation of a new class of materials based on graphene as a carrier. Graphene-inorganic nanocomposites show excellent performance, which can be widely used in emission displays, sensors, supercapacitors, batteries, catalysis and other fields, which can significantly improve the performance of nanomaterials. This enables the extensive industrial application of the most promising materials in nanotechnology. RBOSCHCO is a trusted global Lithium Battery Anode Material Few Layer Graphene supplier, nitrogen doped graphene. Feel free to send an inquiry about the latest price of Few Layer Graphene at any time.


If you want to know graphene price/graphene cost, please send inquiry to sales1@rboschco.com


Performance of Anode Material Few Layer Graphene CAS 1034343-98-0 :

Few layer graphene ( CAS 1034343-98-0 ) is a two-dimensional carbon nanomaterial composed of carbon atoms and sp² mixed orbital hexagonal honeycomb lattice. Few layer graphene is one of the highest-strength materials known, but also has good toughness, and can be bent.


Technical Parameter of Anode Material Few Layer Graphene CAS 1034343-98-0 :

Product NameCASPuritySSACarbon atomic layersOther Impurity
( ppm )
Few Layer Graphene1034343-98-099%≥350 m2/g2-5<1000

 

How is Lithium Battery Anode Material Few Layer Graphene Produced? 
Synthesize fewer layers of graphene
First, a chemical vapor deposition (CVD) method was used to directly grow high-quality graphene films on copper foil. The film is then transferred to the desired substrate by a wet-chemical graphene transfer process.
 
Applications of Lithium Battery Anode Material Few Layer Graphene:
With a unique combination of novel electronic, optical and mechanical properties, graphene-based nanomaterials have found applications in energy generation and storage. For example, they are used in photovoltaic devices and batteries, sensors and flexible electronics, photodetectors and biomedical applications (such as drug delivery, biological imaging and tissue engineering).

Low-layer graphene has great value in energy applications, including hydrogen storage, natural gas storage, supercapacitors and lithium batteries.

The single-layer/low-layer graphene with few structural defects is the most widely used cathode material for commercial lithium-ion batteries. However, graphene with few layers rich in defects is the main electrode material for supercapacitors.

In supercapacitor application, few layers of graphene larger specific surface area are conducive to the high dispersion of nanoparticles, excellent electrical conductivity is beneficial to in the process of electrochemical electron transfer from nanoparticles to graphene substrate, which can effectively restrain the supercapacitor occurs due to reunite in the process of the electrochemical cycle of passive film phenomenon, improve the electrode material cycle performance.

Using graphene instead of the traditional graphite material will greatly improve the lithium storage capacity of the anode, and thus improve the energy density of the lithium-ion battery.

In addition, when graphene is used as the anode material of lithium-ion batteries, the diffusion path of lithium ions in graphene material is relatively short and the electrical conductivity is high, which can greatly improve its rate performance.

In terms of hydrogen storage, when some atoms (such as transition metal and alkali metal) are first adsorbed on the surface of graphene with few layers, charge transfer occurs between the adsorbed additional atoms and the substrate, which changes the local charge density, thus greatly increasing the adsorption capacity of graphene to hydrogen.

Storage Condition of Anode Material Few Layer Graphene CAS 1034343-98-0 :

The damp reunion will affect few layer graphene dispersion performances and using effects, therefore, the product should be sealed in vacuum packing and stored in a cool and dry room, the few layer graphene can not be exposure to air. In addition, the few layer graphene should be avoided under stress.


Packing & Shipping of Anode Material Few Layer Graphene CAS 1034343-98-0 :
We have many different kinds of packing which depend on the few layer graphene quantity.
Few layer graphene packing: 50g/bag or 100g/bag, 500g/bag, or as your request.
Few layer graphene shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

Lithium Battery Anode Material Few Layer Graphene CAS 1034343-98-0插图



 

Graphene Powder Properties

Other NamesGraphene nanopowder, 2D carbon, monolayer graphene,
bilayer graphene, graphene nanosheets, graphene nanoribbons,
graphene nanoplatelet
CAS No.1034343-98-0
Compound FormulaC
Molecular Weight12.01
AppearanceBlack Powder
Melting Point3652-3697℃
Boiling Point4200℃
Density2.267 g/cm3
Solubility in H2ON/A
Thermal ExpansionN/A
  
  

Graphene Powder Health & Safety Information

Signal WordN/A
Hazard StatementsN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
Transport InformationN/A
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About Lithium Battery Anode Material Few Layer Graphene:What is few layer graphene? The few graphene layers are made up of ultra-thin layers of carbon atoms arranged […]

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Zirconium Hydride ZrH2 Powder CAS 7704-99-6

About Zirconium Hydride ZrH2 Powder:
The hydride zirconium chemical ZrH2, density is 5.6 g / cm3, and the melting is decomposed, and heat-39.7 kcal/mol is formed. Its preparation method is carried out with titanium hydrogenated, and the temperature of the hydrogenation is often carried out at 900 ° C. The molecular weight of zirconium hydride is 93.24. Zirconium hydrogen fluid can be dissolved in hydrofluoric acid or ethanol; they have severely reacted with water, acid, oxidant or halogenated compound.
Zirconium hydrogen fluid is a stable powder, and the air and water are stable under normal conditions. It can react violently with oxidizing agents and strong acids, zirconium can smoothly burn smoothly when ignition, and decompose in vacuum 300 ° C, completely decompose at 500-700 ° C.
L. zirconium hydride depicts an alloy bonded from zirconium and hydrogen. Hydrogen is used as a hardening agent to prevent dislocation in zirconia atomic lattices. By changing the content of hydrogen and hydrogen in the presence of hydride (precipitation phase), the hardness, ductility, and tensile strength of the resulting hydride can be controlled. The zirconium hydride having a hydrogen content can make it harder, stronger than zirconium, but the toughness of such zirconia is not as zirconium. Feel free to send an inquiry to get the latest price if you would like to buy Zirconium Hydride ZrH2 Powder in bulk.

Zirconium Hydride Powder CAS 7704-99-6:

It is a stable powder that is stable to air and water under normal conditions. It reacts violently with oxidants and strong acids. It burns smoothly during ignition, begins to decompose at 300 ° C in a vacuum, and completely decomposes at 500-700 ° C.

How is Zirconium Hydride ZrH2 Powder produced?
The metal is interacting with hydrogen to form zirconium hydrogenide. Sponge metallic zirconium with a purity of 99.8% was heated to high purity hydrogen (99.999%) to 400 to 600 ° C, directly reacted, ie, zirconium hydrogen fluid. The reaction is an exothermic reaction. This reaction also occurs even at room temperature, and uniform integral hydrogenation is usually achieved by annealing at a temperature of 400-600 ° C for several hours to several weeks. At room temperature, zirconium hydrogenide in the air, even in a high vacuum, will be rapidly oxidized. The formed nano-thin oxide layer prevents oxygen from further diffused into the material, so changes caused by oxidation can generally be ignored. Or reduce zirconium dioxide at 600 ° C in a hydrogen stream, and zirconium hydride can be obtained.
 
Applications of Zirconium Hydride ZrH2 Powder:
Zirconium hydride is a pure powder, used as a hydrogenation catalyst in powder metallurgy, used as an absorbent in the vacuum tube industry. In a vacuum system, zirconium hydride helps establish a seal between metals and ceramics.
Zirconium hydrogenide is used in industrial use for fireworks, flux and ingredients, used in a nuclear reactor as a chuck, in a vacuum tube, and is also used in metal-ceramic sealing.
ZrH2 is used in powder metallurgy, used as a hydrogenation catalyst, used in metal foam production as a reducing agent, vacuum tube, and foaming agent. Other uses include fuel as a firework, i.e., fireworks exploding.
Zirconium hydride is a strong reducing agent. Use it as an additive. Desoxicide and desulfurization agents at the time of iron alloy are prepared.
Mixed with carbonized calcium carbon carbide and nitride can be used as a metal coating.
Since the ceramics can be infiltrated, zirconium is used as a metal-ceramic adhesive for vacuum tubes and ceramic devices.
In addition, zirconium hydride can also be used as a neutron reduction agent and an atomic power station other material, a suction agent, a firework, ambient solvent or the like.

Storage Condition of Zirconium Hydride ZrH2 Powder:
The damp reunion will affect ZrH2 powder dispersion performance and using effects, therefore, Zirconium Hydride ZrH2 Powder should be sealed in vacuum packing and stored in cool and dry room, the Zirconium Hydride ZrH2 Powder can not be exposure to air. In addition, the ZrH2 powder should be avoided under stress.

Packing & Shipping of Zirconium Hydride ZrH2 Powder:
We have many different kinds of packing which depend on the Zirconium Hydride ZrH2 Powder quantity.
Zirconium Hydride ZrH2 Powder packing:vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Zirconium Hydride ZrH2 Powder shipping: could be shipped out by sea, by air, by express, as soon as possible once payment receipt.
Zirconium Hydride ZrH2 Powder CAS 7704-99-6插图

Zirconium Hydride ZrH2 Powder Properties

Other NamesZirconium(II) hydride, Dihydridozirconium, zirconium(2+) dihydride, ZrHx, ZrH, CAS 15457-96-2 (ZrH4), CAS 13940-37-9 (ZrH), zirconium-hydrogen alloy
CAS No.7704-99-6
Compound FormulaZrH2 
Molecular Weight93.24
AppearanceDark gray to black powder
Melting PointN/A
Solubility in waterN/A
Density5.56 g/cm3
Purity99.00%
Particle Size325mesh
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact Mass91.920354
Monoisotopic Mass91.920354 Da
  
  

Zirconium Hydride ZrH2 Powder Health & Safety Information

Safety WarningDanger
Hazard StatementsH228-H315-H319-H335
Flashing pointN/A
Hazard CodesF
Risk Codes11-36/37/38
Safety Statements24/25-43-7/8
RTECS NumberZH8015000
Transport InformationUN 1437 4.1/PG 2
WGK Germany3
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About Zirconium Hydride ZrH2 Powder:The hydride zirconium chemical ZrH2, density is 5.6 g / cm3, and the melting is decomposed, and heat-39.7 kcal/mol is formed. […]

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