Copper Hydroxide Nano Wires

450 INR/Bottle

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Product Details:

Form Solid, Nanowire Structure
Taste Odorless (not for ingestion)
HS Code 28254000
Poisonous Yes
Density 3.368 Gram per cubic centimeter(g/cm3)
Storage Store in cool, dry place away from sunlight and acids
Melting Point Decomposes before melting
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Copper Hydroxide Nano Wires Price And Quantity

Minimum Order Quantity 1 Gram
Price 450 INR/Bottle

Copper Hydroxide Nano Wires Product Specifications

Solubility Insoluble in water, soluble in ammonia and alkali solutions
Smell Odorless
CAS No 20427-59-2
Purity >99%
Boiling point Not applicable (decomposes on heating)
Structural Formula Cu(OH)2
Ph Level Alkaline
Standard Industrial/Nanotechnology Grade
Application Nanoelectronics, sensors, batteries, catalysis, conductive ink, nanotechnology R&D
Usage Research, advanced electronic and catalytic applications
Other Names Cupric Hydroxide Nanowires, Copper Dihydroxide Nanowires
Shape Wire (Nanowire)
Chemical Name Copper(II) Hydroxide
Melting Point Decomposes before melting
Type Nano Wires
Molecular Formula Cu(OH)2
Grade High Purity, Nano Grade
Molecular Weight 97.56 g/mol
EINECS No 215-137-3
Taste Odorless (not for ingestion)
HS Code 28254000
Form Solid, Nanowire Structure
Classification Inorganic Chemical, Nanomaterial
Poisonous Yes
Main Material Copper Hydroxide
Storage Store in cool, dry place away from sunlight and acids
Density 3.368 Gram per cubic centimeter(g/cm3)

Product Description

Chemical Formula

Cu(OH)2

NCZNW104-19

Molar Mass 97.561 g/mol

Density 3.368 g/cm3

Melting point 80 EC

CAS Number 20427-59-2

Diameter 10 nm (customization available)

Length 5 m (customization available)

Copper Hydroxide Nanowires Description

Copper Hydroxide Nanowires is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. Nanochemazone produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available, as is additional technical and safety (MSDS) data. Please contact us for information on lead time and pricing above.

Exceptional Properties for Advanced Applications

Copper Hydroxide Nano Wires stand out for their high purity, significant surface area, and reliable thermal and chemical stability. Their unique structure delivers excellent conductivity and enables efficient performance in nanotechnology research and industrial development. The meticulously controlled morphology ensures consistency in experimental results and practical applications.

Versatile Uses Across Technologies

These nanowires are integral to progressive fields such as nanoelectronics, sensor technology, battery development, catalysis, and conductive inks. Their adaptability allows for robust usage in both academic research and industrial settings, contributing to the ongoing evolution of nanomaterials and next-generation electronic devices.

Safe Handling and Storage Recommendations

To maintain their integrity, Copper Hydroxide Nano Wires should be stored in a cool, dry place, away from sunlight and acids. Proper packaging in sealed vials or HDPE containers under an inert atmosphere extends shelf life and ensures safety, given the product's poisonous nature. Always handle with appropriate protective equipment.

FAQ's of Copper Hydroxide Nano Wires:

Q: How should Copper Hydroxide Nano Wires be stored for optimal shelf life?

A: Store Copper Hydroxide Nano Wires in a cool, dry environment, insulated from sunlight and acids. Ensure the packaging remains sealed under an inert atmosphere to maintain stability and effectiveness for at least 12 months.

Q: What are the primary uses of Copper Hydroxide Nano Wires?

A: These nanowires are mainly employed in nanoelectronics, sensors, batteries, catalysis, conductive inks, and various nanotechnology R&D applications. Their high surface area and electrical conductivity foster advancements in these cutting-edge fields.

Q: When can I expect degradation or loss of performance in these nanowires?

A: Copper Hydroxide Nano Wires remain thermally stable up to 80C and retain their properties for a minimum of 12 months under recommended storage conditions. Exposure to higher temperatures, acids, or moisture may reduce stability or performance.

Q: Where should I use these nanowires for optimal performance?

A: They are best utilized in controlled laboratory or industrial environments focused on advanced electronic, catalytic, or sensor-related developments. Maintaining recommended conditions maximizes their utility and reliability.

Q: What is the process for integrating these nanowires into research projects?

A: Incorporation involves dispersion in compatible solvents (such as ammonia or alkali solutions, as they are insoluble in water), followed by deposition or assembly into desired nanoelectronic or catalytic structures. Carefully designed protocols enhance performance outcomes.

Q: What benefits do Copper Hydroxide Nano Wires offer compared to other nanomaterials?

A: Their combination of excellent electrical conductivity, high surface area, uniform one-dimensional shape, and stable monoclinic crystallinity provides superior performance in electronic and catalytic roles, making them a valuable choice for innovative research and development.

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Cu(OH)2
NCZNW104-19
Molar Mass	97.561 g/mol
Density	3.368 g/cm3
Melting point	80 EC
CAS Number	20427-59-2
Diameter	10 nm (customization available)
Length	5 m (customization available)

Copper Hydroxide Nano Wires

Product Details:

Copper Hydroxide Nano Wires Price And Quantity

Copper Hydroxide Nano Wires Product Specifications

Product Description

Chemical Formula Cu(OH)2 NCZNW104-19 Molar Mass 97.561 g/mol Density 3.368 g/cm3 Melting point 80 EC CAS Number 20427-59-2 Diameter 10 nm (customization available) Length 5 m (customization available)

Copper Hydroxide Nanowires Description

FAQ's of Copper Hydroxide Nano Wires:

Q: How should Copper Hydroxide Nano Wires be stored for optimal shelf life?

Q: What are the primary uses of Copper Hydroxide Nano Wires?

Q: When can I expect degradation or loss of performance in these nanowires?

Q: Where should I use these nanowires for optimal performance?

Q: What is the process for integrating these nanowires into research projects?

Q: What benefits do Copper Hydroxide Nano Wires offer compared to other nanomaterials?

Other Products in 'Speciality Chemicals & Materials' category

Chemical Formula

Cu(OH)2

NCZNW104-19

Molar Mass 97.561 g/mol

Density 3.368 g/cm3

Melting point 80 EC

CAS Number 20427-59-2

Diameter 10 nm (customization available)

Length 5 m (customization available)