Iron oxide Nanowires

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Product Details:

Boiling point Not applicable (decomposes)
Refractive Rate 2.9 (at 550 nm)
Purity >99%
Ph Level Neutral (7)
HS Code 28211010
Solubility Insoluble in water
Molecular Formula Fe2O3 or Fe3O4
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Iron oxide Nanowires Product Specifications

Form Solid (powder, nanowire)
Poisonous Yes
Classification Inorganic Nanomaterial
Other Names Ferric oxide nanowires, Fe2O3 nanowires
Application Magnetic devices, biosensors, catalysts, data storage, electronic and biomedical applications
Structural Formula O=Fe-O-Fe=O (nanowire arrangement)
Density 5.2 Gram per cubic centimeter(g/cm3)
Molecular Weight 159.69 g/mol (Fe2O3)
Smell Odorless
Standard Meets industry & research standards
Purity >99%
Grade Analytical Grade, Industrial Grade, Research Grade
Refractive Rate 2.9 (at 550 nm)
Main Material Iron oxide (Fe2O3/Fe3O4)
Boiling point Not applicable (decomposes)
Usage Research, industrial, and laboratory uses
CAS No 1317-61-9
Chemical Name Iron(III) oxide nanowires
EINECS No 215-168-2
Molecular Formula Fe2O3 or Fe3O4
Storage Store in a cool, dry place in tightly closed containers
Taste Tasteless
Melting Point 1565 C
Shape Wire (nanowire)
Type Nanowires
Solubility Insoluble in water
HS Code 28211010
Ph Level Neutral (7)

Iron oxide Nanowires Trade Information

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

Product Description

Chemical Formula	Fe2O2
CAS Number	1309-37-1
Stock No.	NCZNW107-19
Density	5.242g/cm3
Melting point	1,539-1,565 C
Solubility in water	Insoluble
Crystal Structure	Rhombohedral
Heat Capacity	103.9 J/mol-K
Diameter	50 nm (customization available)
Length	5 µm (customization available)

High-Performance Nanowires for Multidimensional Applications

Engineered for research, industrial, and laboratory uses, iron oxide nanowires exhibit exceptional properties such as a strong magnetic response, low electrical conductivity, and high thermal resilience. Their impressive surface area and crystallinity enable precise control in applications ranging from biosensors to data storage and catalysis. Available in sealed vials or HDPE bottles, these nanowires assure reliability, longevity, and compliance with international standards.

Superior Material Properties and Industrial Compliance

Iron oxide nanowires are meticulously manufactured to ensure narrow particle size distribution, neutrality (pH 7), and purity exceeding 99%. With both analytical and industrial grades offered, every batch aligns with EINECS No: 215-168-2 and CAS No: 1317-61-9 requirements. RoHS compliance and non-poisonous characteristics support safe deployment across a spectrum of innovative and traditional use cases.

FAQs of Iron oxide Nanowires:

Q: How are iron oxide nanowires typically used in research and industry?

A: Iron oxide nanowires are commonly used in advanced magnetic devices, biosensors, catalysts, data storage, and electronic applications. Their strong magnetic response and high surface area make them valuable for research into new sensor technologies, industrial catalysis, and biomedical engineering projects.

Q: What benefits do these nanowires provide over conventional iron oxide materials?

A: Compared to traditional iron oxide materials, these nanowires offer a much higher surface-to-volume ratio, superior magnetic properties, and enhanced crystallinity. This results in increased sensitivity in biosensors, efficient catalytic activity, and better data storage capabilities.

Q: When should iron oxide nanowires be stored to ensure optimal shelf life?

A: To maintain their stability and effectiveness, iron oxide nanowires should be stored in a tightly closed container placed in a cool, dry location. Proper storage conditions help retain their properties and extend shelf life up to 24 months from the date of manufacture.

Q: Where are these iron oxide nanowires manufactured and distributed?

A: These nanowires are manufactured, exported, imported, and traded primarily in India by various entities, including dealers, suppliers, manufacturers, exporters, and wholesalers specializing in high-purity nanomaterials.

Q: What is the process for handling and using iron oxide nanowires safely?

A: Handle iron oxide nanowires with care, preferably in well-ventilated areas and using protective equipment. They are odorless, tasteless, non-poisonous, and RoHS compliant, but best practices in handling any nanomaterial are advised to avoid unintentional dispersion or contamination.

Q: How does the narrow particle size distribution benefit scientific applications?

A: The narrow particle size distribution ensures consistency and reproducibility in experiments and industrial processes. This uniformity leads to more predictable results, which is especially important in sensitive applications like biosensing and catalysis.

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