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Praseodymium (IIl, IV) Oxide Nanoparticles
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Product Price: Rs 550 / KgGet Best Price
Product Details:
Purity
99%
Physical State
Powder
Product Type
Praseodymium (IIl, IV) Oxide Nanoparticles
Package Type
Bottle
Chemical Formula
Pr6011
CAS No.
12037-29-5
Color
Black
Key features:
Mixed Valency: The presence of both Pr3+ and Pr4+ ions in the crystal lattice is a defining characteristic, influencing their electronic, magnetic, and catalytic behaviors.
Crystal Structure: They typically adopt a cubic fluorite-related structure, which can be viewed as an oxygen-deficient form of PrO2.
Color: Praseodymium (III, IV) oxide nanopowder is usually a dark brown or black powder.
Insolubility: It is insoluble in water, making it suitable for applications where water stability is required.
High Thermal Stability: Pr6O11 generally exhibits good thermal stability, with a high melting point reported around 2183 °C and a boiling point around 3760 °C.
Electronic Properties: It exhibits interesting electronic properties, including relatively high electrical conductivity that increases with temperature and a high dielectric constant.
Magnetic Properties:Praseodymium compounds often exhibit paramagnetic behavior above very low temperatures.
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Multi Wall Carbon Nanotubes
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Product Price: Rs 10,000 / KgGet Best Price
Product Details:
Purity
99%
Product Type
Multi Wall Carbon Nanotubes
Form
Powder
Color
Black
NAS Number
308068-56-6
Packaging Type
Packet
Key features:
Structure: Composed of multiple concentric layers of graphene sheets rolled into a cylindrical shape.
High Aspect Ratio: Very high length-to-diameter ratio (typically >100:1).
Exceptional Mechanical Properties:
High Tensile Strength: Stronger than steel at a fraction of the weight.
High Stiffness (Young's Modulus): Very rigid materials.
Good Flexibility: Can bend, twist, and buckle and return to shape.
Improved Fatigue Life: Enhances resistance to damage from cyclic loading in composites.
Excellent Electrical Conductivity: Generally highly conductive, can impart conductivity to composites. Conductivity often dominated by the outer wall. Can also exhibit semiconducting behavior.
High Thermal Conductivity: Efficient heat conductors along their length.
Relatively High Thermal Stability: Stable at temperatures above 600°C (depending on defects and purity).
Chemical Stability: High resistance to many chemicals.
Functionalizability: Outer walls can be modified with functional groups.
Ease of Production and Purification: Easier and less costly to produce and purify than SWCNTs.
