Manganese Oxide Nanowires

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Product Details:

Molecular Formula MnO2
Molecular Weight 86.94 g/mol
Shape Nanowire
Structural Formula O=M=O with four-coordination around Mn
Purity >99%
Form Solid powder/nanowires
Refractive Rate 2.07
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Manganese Oxide Nanowires Product Specifications

Solubility Insoluble in water; partially soluble in acids
Smell Odorless
Main Material Manganese Oxide (MnO2)
Taste Tasteless
HS Code 28201000
Boiling point Not applicable (decomposes)
Storage Store in a cool, dry place in a tightly closed container
Density 5.03 Gram per cubic centimeter(g/cm3)
Type Nanowires
Usage Industrial, research, energy storage, experimental
Ph Level Neutral to mildly alkaline
Standard meets analytical and industrial standards
Chemical Name Manganese Dioxide
Other Names Manganese(IV) oxide nanowires, MnO2 nanowires
Melting Point Decomposes above 535C
Poisonous Yes
Classification Inorganic oxide nanomaterial
Application Catalysis, battery electrodes, sensors, supercapacitors, biomedical applications
Form Solid powder/nanowires
Refractive Rate 2.07
Purity >99%
CAS No 1313-13-9
EINECS No 215-202-6
Grade Analytical/Industrial Grade
Shape Nanowire
Structural Formula O=M=O with four-coordination around Mn
Molecular Weight 86.94 g/mol
Molecular Formula MnO2

Manganese Oxide Nanowires Trade Information

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

Product Description

Unlock the astonishing potential of our Manganese Oxide Nanowires, expertly crafted via hydrothermal or chemical vapor deposition. These first-class nanowires, with a fresh, dark brown-to-black appearance and particle size of 50-150 nm diameter, offer a generous surface area (>50 m/g) and semiconducting behavior. Redoubtable in thermal stability (up to 400C) and built for long shelf-life, our high-purity (>99%) MnO2 nanowires set the latest benchmark for analytical and industrial applications. Packaged securely to maintain quality, theyre ideal for catalysis, battery electrodes, sensors, supercapacitors, and biomedical research.

Versatile Applications of Manganese Oxide Nanowires

These analytical/industrial-grade nanowires are suitable for a broad range of uses, including advanced catalysis, battery and supercapacitor electrodes, sensor fabrication, biomedical research, and various industrial experiments. Their semiconducting nature and robust structure make them valuable across the energy storage sector, as well as for experimental and research-focused applications, meeting the needs of manufacturers, producers, and researchers alike.

Delivery Timeframes, Certifications, and Sampling Policy

We propose a flexible sample policy, catering to different proposal amounts and requirements. Manganese Oxide Nanowires are dispatched promptly, serving both domestic and international markets. All batches adhere to recognized standards, ensuring analytical and industrial certification. Custom-tailored packaging and reliable logistics ensure your order arrives in optimum condition, whether you are a dealer, exporter, importer, or supplier operating in Indias diverse commercial landscape.

FAQs of Manganese Oxide Nanowires:

Q: How should Manganese Oxide Nanowires be stored to extend their shelf life?

A: Store the nanowires in a cool, dry environment within a tightly closed container to ensure a minimum shelf life of two years under recommended conditions.

Q: What commercial industries commonly use these nanowires?

A: Industries involved in catalysis, battery manufacturing, sensor technology, supercapacitors, and biomedical research frequently utilize Manganese Oxide Nanowires due to their semiconducting and stable properties.

Q: Where is the recommended application for these nanowires in research?

A: These nanowires are ideally suited for energy storage systems, experimental design, advanced material research, and analytical applications given their high surface area, conductivity, and robust thermal stability.

Q: What is the standard manufacturing process for these nanowires?

A: Manganese Oxide Nanowires are produced using hydrothermal or chemical vapor deposition methods to ensure consistency in structural, morphological, and purity standards.

Q: Are there any specific benefits to using MnO2 nanowires compared to other forms?

A: Yes, the nanowire shape increases surface area, enhances conductivity, and improves performance in catalysis, energy storage, and sensor applications relative to bulk or particulate MnO2.

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