Nickel Oxide Nanowire

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Product Details:

Refractive Rate 2.37
Form Solid
Solubility Insoluble in water, soluble in acids and ammonium hydroxide
Purity 99.9% (typical)
Other Names Nickel monoxide nanowire, NiO nanowire
HS Code 28255010
Storage Store in a tightly closed container, kept in a cool, dry, well-ventilated area
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Nickel Oxide Nanowire Product Specifications

Molecular Weight 74.69 g/mol
Poisonous Yes
Structural Formula NiO
Standard ISO 9001 Certified
Molecular Formula NiO
Density 6.67 Gram per cubic centimeter(g/cm3)
Shape Nanowire
Classification Inorganic compound, metal oxide nanomaterial
Smell Odorless
HS Code 28255010
CAS No 1313-99-1
Storage Store in a tightly closed container, kept in a cool, dry, well-ventilated area
Application Energy storage, gas sensors, catalysis, supercapacitors, battery electrodes, photocatalysts, optoelectronic devices
Boiling point 2,730C
Melting Point 1,985C
Other Names Nickel monoxide nanowire, NiO nanowire
Purity 99.9% (typical)
Usage Industrial, laboratory, nanotechnology research, electronic devices
Solubility Insoluble in water, soluble in acids and ammonium hydroxide
Grade Technical Grade / Nanomaterial Grade
Main Material Nickel Oxide (NiO)
EINECS No 215-215-7
Chemical Name Nickel(II) Oxide
Type Nanowire
Refractive Rate 2.37
Form Solid

Nickel Oxide Nanowire Trade Information

Payment Terms Western Union, Telegraphic Transfer (T/T), Paypal, Cash in Advance (CID), Cheque, Cash Advance (CA)
Main Domestic Market All India

Product Description

Formula	NiO
CAS Number	1313-99-1
Stock No.	NCZNW113-19
Purity	99%
Diameter	20 nm (customization available)
Length	20 µm (customization available)
Molar Mass	74.6928 g/mol
Density	6.67 g/cm3
Melting point	1955 C

High Surface Area and Semiconducting Properties

Nickel Oxide Nanowires provide a remarkable surface area due to their nanoscale dimensions. This enhances their activity in catalysis, gas sensing, and energy storage, while maintaining semiconducting properties vital for electronic and optoelectronic devices. Their unique form factor allows for greater interaction with surrounding media, leading to improved performance across various industrial and laboratory applications.

Thermal and Magnetic Stability for Advanced Applications

With impressive thermal stability and antiferromagnetic behavior below 525K, NiO nanowires are well suited for use in harsh environments. These properties make them highly valuable in battery electrodes, supercapacitors, and devices exposed to fluctuating temperatures. Their stable cubic crystal structure ensures consistency in performance and reliability for long-term technological solutions.

Safe Handling and Shelf Life Guidelines

Nickel Oxide Nanowires are toxic if ingested or inhaled, so handle with care in controlled environments. Sealed vials or customized packaging preserve product integrity, offering up to 24 months of shelf life if stored in cool, dry, and well-ventilated conditions. Adhering to ISO 9001 standards ensures consistent quality and minimizes risks during industrial, research, or electronic manufacturing usage.

FAQs of Nickel Oxide Nanowire:

Q: How should Nickel Oxide Nanowires be stored to maintain their stability and shelf life?

A: Nickel Oxide Nanowires should be kept in tightly closed containers, stored in a cool, dry, and well-ventilated area. This preserves their high purity and performance for up to 24 months as recommended.

Q: What benefits does the high surface area of Nickel Oxide Nanowires offer in industrial applications?

A: The high surface-area-to-volume ratio enhances catalytic activity, gas sensing sensitivity, and efficient energy storage, making Nickel Oxide Nanowires ideal for advanced technologies such as battery electrodes and supercapacitors.

Q: Where can Nickel Oxide Nanowires be utilized for optimum performance?

A: NiO nanowires excel in industrial, laboratory, and nanotechnology research settings. Key application areas include energy storage, gas sensors, catalysis, optoelectronic devices, and photocatalysts.

Q: What is the process for using Nickel Oxide Nanowires in electronic devices or laboratory research?

A: Typically, the nanowires are integrated into device matrices, electrodes, or sensor platforms. Their semiconducting properties can be exploited for fabricating nanoscale components or enhancing the sensitivity of experimental setups.

Q: When should customized packaging be requested for Nickel Oxide Nanowires?

A: Customized packaging is advisable for large-scale industrial use, sensitive research projects, or when specific preservation requirements are necessary to maintain product integrity during transport or extended storage.

Q: Is Nickel Oxide Nanowire safe to handle, and what precautions are necessary?

A: Nickel Oxide Nanowire is toxic if ingested or inhaled. Use appropriate personal protective equipment, dust masks, and work in well-ventilated environments to minimize exposure risks during handling and processing.

Q: What is the main benefit of the antiferromagnetic property of Nickel Oxide Nanowires below 525K?

A: The antiferromagnetic behavior below 525K prevents unwanted magnetic interference, which is advantageous in electronic and spintronic devices where precise magnetic characteristics are needed.

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