Cobalt-doped Titanium Aluminum Carbide

550 INR/Gram

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Product Details:

Other Names Co-Ti3AlC2; Cobalt modified TiAlC
Form Solid
Poisonous Yes
Purity >99%
Molecular Weight Approximate, depends on Co content
Shape Granular/Powder
Structural Formula Layered hexagonal crystal structure (MAX phase)
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Cobalt-doped Titanium Aluminum Carbide Price And Quantity

Minimum Order Quantity 1 Gram
Price 550 INR/Gram

Synthesis Method Solid-state reaction/Hot isostatic pressing
Color Dark grey with metallic sheen
Packing 25g, 100g, 500g bottles; vacuum-sealed bags
Particle Size 1-5 microns (customized on request)
Electrical Conductivity High; enhanced due to cobalt doping
Surface Area (BET) 13-18 m²/g
Specific Heat Capacity Approx. 0.5 J/g·K
Oxidation Resistance Superior compared to undoped MAX phase
Thermal Conductivity Excellent
Shelf Life 24 months
Magnetism Paramagnetic due to Co doping
Crystal System Hexagonal

Cobalt-doped Titanium Aluminum Carbide Product Specifications

HS Code 28499090
Storage Store in tightly sealed container, cool dry place
Density 4.3 Gram per cubic centimeter(g/cm3)
Chemical Name Cobalt-doped Titanium Aluminum Carbide
Classification Transition metal carbide; MAX phase; advanced ceramic
Smell Odorless
Grade Research/Industrial
Other Names Co-Ti3AlC2; Cobalt modified TiAlC
Form Solid
Molecular Formula (Ti,Co)3AlC2
Poisonous Yes
Usage Electrical conductivity improvement, thermal stabilization
Purity >99%
Standard Custom synthesis, on demand
Solubility Insoluble in water
Molecular Weight Approximate, depends on Co content
Application Advanced ceramics, electronic devices, catalyst, battery electrodes
Type Powder
Shape Granular/Powder
Main Material Cobalt-doped Titanium Aluminum Carbide
Taste Odorless, tasteless
CAS No Not assigned
Structural Formula Layered hexagonal crystal structure (MAX phase)
Melting Point >1600C (approximate)

Synthesis Method Solid-state reaction/Hot isostatic pressing
Color Dark grey with metallic sheen
Packing 25g, 100g, 500g bottles; vacuum-sealed bags
Particle Size 1-5 microns (customized on request)
Electrical Conductivity High; enhanced due to cobalt doping
Surface Area (BET) 13-18 m²/g
Specific Heat Capacity Approx. 0.5 J/g·K
Oxidation Resistance Superior compared to undoped MAX phase
Thermal Conductivity Excellent
Shelf Life 24 months
Magnetism Paramagnetic due to Co doping
Crystal System Hexagonal

Product Description

Specification for Cobalt-doped Titanium Aluminum Carbide

PRODUCT No.	MX-CZ-200
Compound Formula	Co: Ti3AlC2
Molecular Weight	253.54
Appearance	Dark gray to black powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A

Enhanced Electrical and Thermal Properties

Cobalt-doped Titanium Aluminum Carbide is engineered to surpass the conductive performance of undoped MAX phase ceramics. The addition of cobalt significantly improves both electrical and thermal conductivities, making this powder an optimal choice for applications requiring reliable and efficient energy transfer. Its excellent oxidation resistance extends its lifespan under challenging conditions.

Versatile Applications in Advanced Technologies

Thanks to its high purity and granular form, Co-Ti3AlC2 is ideal for a range of advanced applications. Researchers and manufacturers utilize this material in catalyst systems, electronic devices, and battery electrodes, benefiting from its stability and conductivity. Its paramagnetic properties also open avenues for use in specialized electronic and sensing devices.

FAQ's of Cobalt-doped Titanium Aluminum Carbide:

Q: How is Cobalt-doped Titanium Aluminum Carbide synthesized?

A: This material is typically synthesized using solid-state reaction methods or hot isostatic pressing, resulting in a layered hexagonal crystal structure with enhanced properties due to cobalt doping.

Q: What benefits does cobalt doping provide for this MAX phase ceramic?

A: Cobalt doping increases both electrical and thermal conductivity, enhances oxidation resistance, and imparts paramagnetic characteristics, resulting in greater performance for demanding industrial and research applications.

Q: Where can this powder be utilized effectively?

A: It serves a valuable role in the fabrication of advanced ceramics, electronic components, catalysis systems, and as electrodes in batteries due to its stability, conductivity, and oxidation resistance.

Q: What is the recommended method for storing Cobalt-doped Titanium Aluminum Carbide powder?

A: To maintain its quality, store the powder in a tightly sealed container in a cool, dry place. The product is typically packaged in vacuum-sealed bags or bottles for added protection.

Q: When should one consider using Cobalt-doped Ti3AlC2 over undoped variants?

A: When applications require enhanced electrical or thermal performance, greater oxidation resistance, or unique magnetic properties, this cobalt-doped version offers significant advantages over undoped MAX phases.

Q: How does particle size customization benefit my application?

A: Customizing the particle size between 1-5 microns allows for optimization in various processes, improving dispersion, reactivity, or stability depending on the end use.

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