Lead Titanate Nanowires

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Product Details:

Form Solid
Density 7.52 Gram per cubic centimeter(g/cm3)
Molecular Formula PbTiO3
Shape Nanowire
Melting Point Perovskite decomposes above 1250C
Molecular Weight 303.08 g/mol
Refractive Rate 2.6 (approximate)
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Lead Titanate Nanowires Product Specifications

Main Material Lead Titanate (PbTiO3)
Form Solid
Standard Complies with research and analytical grade specifications
Application Piezoelectric devices, sensors, actuators, transducers, capacitors, ferroelectric memory
Density 7.52 Gram per cubic centimeter(g/cm3)
Molecular Formula PbTiO3
Type Nanowires
Shape Nanowire
Grade Analytical/Research Grade
Classification Inorganic compound, ceramic material, ferroelectric
Usage Nanotechnology research, electronic ceramics, advanced material development
Melting Point Perovskite decomposes above 1250C
Molecular Weight 303.08 g/mol
Refractive Rate 2.6 (approximate)
Storage Store in a dry, cool environment, away from strong acids
Purity >99%
EINECS No 235-038-9
HS Code 28419000
Boiling point Not applicable (decomposes on heating)
Taste Odorless and tasteless
Chemical Name Lead Titanate
Smell Odorless
Other Names PbTiO3 nanowires, Lead(II) titanate nanowires
CAS No 12060-00-3
Solubility Insoluble in water, soluble in acids
Structural Formula Perovskite structure
Poisonous Yes

Lead Titanate Nanowires Trade Information

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

Product Description

Select Lead Titanate Nanowires for their gilt-edged performance in advanced materials research and device fabrication. With dominant piezoelectric and dielectric coefficients, these blue-ribbon nanowires (50200 nm diameter, 530 m length) exhibit stability up to 1000C. Purchase in confidence; each batch, >99% pure, complies with analytical standards and arrives sealed under inert conditions for maximum freshness. Access high surface area, inert, and moisture-resistant nanowires, ideally suited for next-generation piezoelectric devices, capacitors, sensors, ferroelectric memory, and actuators. Lead Titanate (PbTiO3) sets a benchmark in nanotechnology innovation.

Lead Titanate Nanowires: Usage and Application Spectrum

Engineered for precision, Lead Titanate Nanowires are indispensable in nanotechnology research, especially for the fabrication of piezoelectric devices, nanoscale sensors, and advanced actuators. Their high dielectric constant and robust ferroelectric properties unlock applications in memory devices and transducers. These nanowires, due to their exceptional structural and electrical profile, cater to sophisticated electronic ceramic development, ferroelectric capacitors, and customized material solutions, making them crucial for researchers and industries focused on innovation and performance.

Lead Titanate Nanowires: Packaging, FOB Port, and Supply Capabilities

We offer Lead Titanate Nanowires in secure, sealed bottles maintained under an inert atmosphere, ensuring product integrity. Custom packaging is available to suit specific outlays or laboratory requirements. Typical FOB port is India, with a steady supply ability to meet dominant market value demands. Fast dispatch and responsive order processing guarantee reliable partnerships, whether you are procuring small research quantities or large industrial consignments. Every outlay fulfills stringent quality and safety standards.

FAQs of Lead Titanate Nanowires:

Q: How should Lead Titanate Nanowires be stored to maximize shelf life?

A: Store Lead Titanate Nanowires in a dry, cool environment, away from strong acids. Sealed, inert-atmosphere bottles help preserve their properties, extending the shelf life to 2436 months under recommended conditions.

Q: What are the primary applications of Lead Titanate Nanowires?

A: Lead Titanate Nanowires are used in piezoelectric devices, sensors, actuators, transducers, ferroelectric memory, electronic ceramics, and advanced nanotechnology research.

Q: When is it appropriate to use Lead Titanate Nanowires over other nanowires?

A: Lead Titanate Nanowires are preferred when high dielectric and piezoelectric performance is required, especially in research and industrial applications demanding stable ferroelectric or capacitive materials.

Q: Where does the manufacturing process for these nanowires typically occur?

A: Lead Titanate Nanowires are synthesized using hydrothermal or sol-gel methods, with India as a common location for manufacturing, distribution, and export.

Q: What benefits do Lead Titanate Nanowires provide in electronic devices?

A: Their high dielectric constant and piezoelectric coefficients make them ideal for sensitive sensors, advanced memory storage, and efficient energy transduction applications.

Q: How environmentally safe are Lead Titanate Nanowires?

A: Due to their lead content, these nanowires are hazardous to the environment. Handle and dispose of them according to established safety and environmental guidelines.

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