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Calcium Carbonate Nanoparticles

Calcium Carbonate Nanoparticles

450 INR/Bottle

Product Details:

  • Molecular Weight 100.09 g/mol
  • Molecular Formula CaCO
  • Other Names Nano CaCO
  • Melting Point 825C
  • Purity >99%
  • Storage Store in tightly sealed container in a cool, dry place
  • Smell Odorless
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Calcium Carbonate Nanoparticles Price And Quantity

  • 450 INR/Bottle
  • 1 Gram

Calcium Carbonate Nanoparticles Product Specifications

  • Nanoparticles
  • 100.09 g/mol
  • CaCO
  • 471-34-1
  • Calcium Carbonate
  • Calcium Carbonate
  • 207-439-9
  • >99%
  • Industrial and research use
  • 825C
  • Nano CaCO
  • Odorless
  • Inorganic compound
  • Store in tightly sealed container in a cool, dry place
  • Technical / Industrial / Nanomaterials
  • ISO 9001:2015
  • Fillers in plastics, paints, paper, rubber, drug carriers, catalysts, ceramics, sensors
  • Spherical or irregular nanoparticles
  • Yes
  • Decomposes before boiling
  • 28365000
  • 2.93 Gram per cubic centimeter(g/cm3)
  • Tasteless
  • O=C([O-])O.[Ca+2]
  • Powder
  • Insoluble in water; soluble in acids
  • 9.0 - 9.5 (slurry in water)
  • 1.59
  • Stable up to 400°C
  • 24 months
  • High
  • 0.35 - 0.75 g/cm³
  • Insulator
  • Available (e.g., stearic acid coated)
  • White
  • Low
  • 50-65 m²/g (BET)
  • 20-80 nm

Product Description

Calcium Carbonate Powder Properties /Description

Calcium Carbonate Powder is generally immediately available in most volumes. Nanochemazone produces 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. Additional technical, research, and safety (MSDS) information are available, as is a Reference Calculator for converting relevant units of measurement.



Versatile Nanoparticles for Advanced Applications

Calcium Carbonate Nanoparticles are engineered for high performance in a spectrum of industries, including plastics, paints, paper, ceramics, sensors, and pharmaceuticals. Their customizable surface chemistry, excellent thermal and structural properties, and ease of dispersion make them a critical choice for innovators seeking reliability and enhanced functionality in their products.


Storage and Handling for Maximum Efficacy

To retain optimal physicochemical properties, store Calcium Carbonate Nanoparticles in tightly sealed containers in a cool, dry environment. This ensures their 24-month shelf life, minimizing moisture absorption and contamination risks. Proper handling protocols also reduce the likelihood of particle agglomeration, securing consistent results across research and manufacturing processes.

FAQ's of Calcium Carbonate Nanoparticles:


Q: How can Calcium Carbonate Nanoparticles be incorporated into plastics or paints?

A: These nanoparticles can be easily blended into plastic or paint matrices during the compounding or mixing stage. Their low agglomeration tendency and customizable surfaces (e.g., stearic acid modified) promote uniform dispersion and strong interfacial adhesion, enhancing mechanical and optical properties.

Q: What benefits do Calcium Carbonate Nanoparticles provide compared to traditional fillers?

A: Due to their nanoscale size and high surface area, they offer superior reinforcement, increased opacity, thermal stability up to 400C, and improved surface finish. These features are particularly advantageous for lightweight, high-strength composite materials and advanced coatings.

Q: When is surface modification of these nanoparticles recommended?

A: Surface modification, such as coating with stearic acid, is suggested when enhanced compatibility with hydrophobic polymers or improved dispersibility in non-polar media is required. This process is especially beneficial in plastic, rubber, or paint production.

Q: Where should Calcium Carbonate Nanoparticles be stored to maintain quality?

A: Store these nanoparticles in a tightly sealed container in a cool, dry place. Proper storage preserves high crystallinity, prevents moisture-induced aggregation, and maintains functional integrity for up to 24 months.

Q: What is the process for using these nanoparticles as drug carriers or catalysts?

A: In research settings, the nanoparticles are typically dispersed in suitable solvents and can be functionalized or loaded with active substances. Their high surface area provides abundant sites for molecular attachment, while their biocompatibility and stability make them suitable for drug delivery and catalytic applications.

Q: Are there any safety considerations or toxicity concerns with handling?

A: These nanoparticles are classified as non-poisonous and are tasteless and odorless. Standard laboratory safety practices, such as wearing gloves and masks to avoid inhalation of fine powders, should be followed.

Q: What advantages does the high thermal stability offer in industrial applications?

A: Withstanding temperatures up to 400C, the nanoparticles maintain structural integrity during processing, making them compatible with high-temperature manufacturing, such as ceramics and advanced plastics production.

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