Manganese Tungstate Nanowire

Get a Price/Quote

Product Details:

HS Code 28419000
Molecular Weight 278.84 g/mol
Density 7.4 Gram per cubic centimeter(g/cm3)
Boiling point Not Applicable (decomposes before boiling)
Refractive Rate 1.89
Smell Odorless
Shape Nanowire
Click to View more
Share Your Product:

Request to Call Back Send Inquiry

Manganese Tungstate Nanowire Product Specifications

Molecular Weight 278.84 g/mol
HS Code 28419000
Main Material Manganese tungstate
Boiling point Not Applicable (decomposes before boiling)
Density 7.4 Gram per cubic centimeter(g/cm3)
Grade Analytical/Reagent Grade
Ph Level Neutral (7.0 in water suspension)
Structural Formula WO4^2 anion coordinated with Mn^2+
Chemical Name Manganese tungstate
Refractive Rate 1.89
Usage Research, electronic industry, nanotechnology, laboratory use
Shape Nanowire
Smell Odorless
Other Names Manganese(II) tungstate nanowire
Standard Complies with laboratory and industrial standards
EINECS No 235-027-2
Application Catalysis, sensors, lithium-ion batteries, supercapacitors, gas sensing, optoelectronics
Purity >99%
Poisonous Yes
Taste Odorless and tasteless
CAS No 13477-28-6
Solubility Insoluble in water, soluble in acids
Melting Point 1400C (approx)
Classification Inorganic compound, metal tungstate nanostructure
Storage Store in a cool, dry place, tightly sealed container
Form Solid (nanowire form)
Type Nanowire
Molecular Formula MnWO4

Manganese Tungstate Nanowire Trade Information

Main Export Market(s) Western Europe, Australia, North America, Eastern Europe, Central America, Africa, Middle East, South America, Asia
Main Domestic Market All India

Product Description

Experience the latest in nanotechnology with our highly recommended Manganese Tungstate Nanowire. This unmatchable product features a resplendent light brown to pale yellow color, impressively high surface area (up to 60 m/g), and ineffable crystallinity in monoclinic structure. It is thermally stable up to 800C and is paramagnetic, ensuring superior performance in advanced applications such as catalysis, sensors, optoelectronics, lithium-ion batteries, and gas sensing. Benefit from our competitive pricing and customizable packagingideal for research, electronics, and laboratory innovation. Purity exceeds 99% for uncompromising results.

Diverse Application Surface and Uses of Manganese Tungstate Nanowire

Manganese Tungstate Nanowire stands out for its versatility across numerous application surfaces. It is extensively used in catalysis, gas sensing, lithium-ion batteries, optoelectronic devices, and supercapacitors. The product finds crucial application in research laboratories, the electronic industry, and cutting-edge nanotechnology sectors. Its unique structural and magnetic properties make it indispensable for advanced technological development and innovation across both experimental and industrial domains.

Domestic Market Coverage and Efficient Delivery Process

Manganese Tungstate Nanowire is available across the main domestic market, ensuring wide accessibility. Orders are processed promptly and dispatched within standard delivery times to guarantee timely fulfillment. Once your order is completed, the nanowires are carefully handed over to reliable logistics partners. Sample availability allows clients to evaluate the product prior to bulk purchase, reinforcing our commitment to customer satisfaction and efficient service.

Product	Manganese Tungstate Nanowire
Compound Formula	MnO4W
Stock No.	NCZNW111-19
CAS No.	14177-46-9
Molecular Weight	302.78
Appearance	Yellow Powder
Density	7.23g/cm3
Diameter	30 nm (customization available)
Length	200 nm (customization available)

FAQs of Manganese Tungstate Nanowire:

Q: How is the Manganese Tungstate Nanowire typically used in industry and research?

A: Manganese Tungstate Nanowire is widely utilized for catalysis, gas sensing, lithium-ion batteries, supercapacitors, and optoelectronics in both industrial processes and laboratory research due to its high purity, surface area, and unique nanostructure.

Q: What is the process for synthesizing Manganese Tungstate Nanowire?

A: The nanowires are synthesized via hydrothermal or wet chemical methods, resulting in high crystallinity and controlled morphology, which are critical for maintaining performance and purity.

Q: Where can this nanowire be applied most effectively?

A: It is most effective in the fields of catalysis, energy storage (such as in lithium-ion batteries), gas sensing, and modern electronic devices, thanks to its stability and specialized properties.

Q: When will my Manganese Tungstate Nanowire order be delivered?

A: Orders are efficiently processed and typically dispatched within a standard delivery window, with products handed over to logistics partners once order handling is complete. Delivery time may vary based on location.

Q: What benefits does Manganese Tungstate Nanowire offer compared to other nanomaterials?

A: This nanowire offers ineffable crystallinity, resplendent stability up to 800C, unmatchable purity (>99%), and competitive pricing. Its tailored dimensions and performance make it highly recommended for nuanced nanotechnology applications.

Q: How should Manganese Tungstate Nanowire be stored for optimal shelf life?

A: Store the product in a cool, dry place within a tightly sealed container to maintain its properties and achieve a shelf life of up to 24 months.

Tell us about your requirement

Price:

Quantity

Select Unit

50
100
200
250
500
1000+

Additional detail

Mobile number

Other Products in 'Nano Wires' category

Coating and Membrane Grade Titanium Oxide Nanowires Usage : Additive in coatings, component in membranes, photocatalytic applications Smell : Other, Odorless Shape : Other, Nanowire (diameter 20100 nm, length 110 m) Grade : Other, Coating and Membrane Grade Chemical Name : Titanium Dioxide Nanowire Structural Formula : TiO2 Ph Level : Neutral (pH 7 in suspension) Molecular Weight : 79.87 g/mol HS Code : 28230000 Main Material : Titanium Oxide (TiO2) Density : 3.84 Gram per cubic centimeter(g/cm3) Boiling point : 2972C Storage : Other, Store in cool, dry place, tightly sealed Molecular Formula : TiO2 Type : Nanowire Form : Other, Powder, nanowire bundle CAS No : 13463677 Melting Point : 1843C Solubility : Insoluble in water, soluble in strong acids and alkalis Classification : Other, Inorganic Pigment, Nanomaterial Purity : 99.9% Poisonous : Yes Other Names : Titanium Oxide Nanowires, TiO2 Nanowires EINECS No : 2152801 Standard : Industrial Standard Application : Other, Coating, membrane, photocatalysis, antibacterial surfaces, selfcleaning materials Taste : Other , Odorless, tasteless Refractive Rate : 2.61

Send Inquiry

Copper Hydroxide Nanowires Usage : Research, industrial, chemical synthesis, laboratory use Smell : Other, Odorless Shape : Other, Rodlike nanowire Grade : Other, Analytical Grade, Industrial Grade, Nano Grade Chemical Name : Copper(II) Hydroxide Structural Formula : Cu(OH)2 Ph Level : Alkaline Molecular Weight : 97.56 g/mol HS Code : 28254000 Main Material : Copper Hydroxide (Cu(OH)2) Density : 3.368 Gram per cubic centimeter(g/cm3) Boiling point : Not applicable (decomposes on heating) Storage : Other, Store in a cool, dry place, in sealed container, away from light Molecular Formula : Cu(OH)2 Type : Nanowires Form : Other, Solid, powder or wire form CAS No : 20427592 Melting Point : Decomposes before melting Solubility : Insoluble in water, soluble in ammonia and acids Classification : Other, Inorganic Compounds, Nanomaterials Purity : 99% Poisonous : Yes Other Names : Cupric Hydroxide Nanowires EINECS No : 2151373 Standard : Meets industrial/analytical standards Application : Other, Catalysis, antimicrobial agent, battery electrode, sensor devices, nanoinks, advanced materials, electronics Taste : Other , Tasteless

Send Inquiry

Silver Nanowires (Ag Nanowires) Usage : Conductive additive, electronic component manufacturing, research and development Smell : Other, Odorless Shape : Other, Wire (Nanowire) Grade : Other, Analytical/Industrial Chemical Name : Silver Structural Formula : Ag Ph Level : Neutral (7) Molecular Weight : 107.87 g/mol HS Code : 28439090 Main Material : Silver (Ag) Density : 10.49 Gram per cubic centimeter(g/cm3) Boiling point : 2162C Storage : Other, Store in dry, cool conditions, keep container tightly closed Molecular Formula : Ag Type : Metallic Nanowire Form : Other, Powder, Suspension, Dispersion CAS No : 7440224 Melting Point : ~961.8C Solubility : Insoluble in water, soluble in organic solvents such as ethanol and ethylene glycol Classification : Other, Metal Nanoparticle Purity : 99.5% Poisonous : Yes Other Names : Ag Nanowires, Silver Nanomaterial EINECS No : 2311313 Standard : ISO 9001, RoHS Application : Other, Flexible displays, touch screens, transparent conductive films, sensors, photovoltaics, nanoelectronics, catalysis Refractive Rate : n = 0.18 (at 589 nm)

Send Inquiry

Iron Nanowires Usage : Research and development, laboratory use, industrial nanotechnology applications Smell : Other, Odorless Shape : Other, Wire (nanowire) Grade : Other, Technical/Research Grade Chemical Name : Iron Nanowire Structural Formula : Fe Ph Level : Neutral (7), not applicable Molecular Weight : 55.845 g/mol HS Code : 72052910 Main Material : Iron (Fe) Density : 7.9 Gram per cubic centimeter(g/cm3) Boiling point : 2862C Storage : Other, Store in a cool, dry, and inert atmosphere, avoid moisture and oxidizing agents Molecular Formula : Fe Type : Nanowire Form : Other, Solid (powder or dispersion) CAS No : 7439896 Melting Point : 1538C Solubility : Insoluble in water, soluble in acid Classification : Other, Transition metal nanomaterial Purity : 99% Poisonous : Yes Other Names : Fe nanowires EINECS No : 2310964 Standard : Meets laboratory/research standards Application : Other, Magnetic materials, sensors, catalyst, nanoelectronics, data storage Taste : Other , Odorless, tasteless (not for consumption)

Send Inquiry

SEND INQUIRY CALL ME FREE