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Lanthanum Nitrate

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MOQ : 1 Kilogram

Lanthanum Nitrate Specification

CAS No
10099-58-8

Ph Level
Acidic

Shelf Life
2 years (if properly stored)

HS Code
28469090

Solubility
Highly soluble in water

Appearance
White crystalline powder

Melting Point
Not defined (decomposes before melting)

Storage
Store in tightly sealed containers, in a cool, dry, ventilated area

Application
Catalyst, ceramics, specialty glass, chemical synthesis, laboratory reagent

Grade
Analytical / Technical / Laboratory Grade

EINECS No
233-238-0

Density
2.22 Gram per cubic centimeter(g/cm3)

Physical Form
Powder / Crystal / Solid

Usage
Used in the preparation of specialty glass, catalysts, ceramics, and as a laboratory reagent

Molecular Formula
La(NO3)36H2O

Properties
High purity, hygroscopic, water-soluble, oxidizing agent

Smell
Odorless

Structural Formula
La(NO3)36H2O

Poisonous
Yes (toxic if ingested or inhaled)

Molecular Weight
433.01 g/mol

Ingredients
Lanthanum nitrate hexahydrate (La(NO3)36H2O)

Product Type
Rare Earth Nitrate

Purity
99% 99.99%

Shape
Crystalline / Powdered

Incompatibility
Strong reducing agents, organic materials

Environmental Hazards
Harmful to aquatic life

Transport Information
Handle as an oxidizer, follow regulatory guidelines

Moisture Content
< 0.5%

Boiling Point
Decomposes

Toxicological Information
May cause irritation to eyes, skin, respiratory system

Hazard Class
5.1 (Oxidizing agent)

UN Number
UN 1477

Autoignition Temperature
Not flammable

Packing Group
II

Stability
Stable under recommended storage conditions

Lanthanum Nitrate Trade Information

Minimum Order Quantity
1 Kilogram

Supply Ability
1 Kilogram Per Week

Delivery Time
1 Week

About Lanthanum Nitrate

Lanthanum Nitrate

Cas no.: 10277-43-7
LaN3 O9.6H2O : M.W. 433.02
Minimum assay ( by complexometry ): 99.%
Maximum Limits of Impurities :
Chloride ( CI ) : 0.005%
Sulphate ( SO4 ) : 0.005%
Heavy metals ( as Pb ) : 0.002%
Iron ( Fe ) : 0.002%
Cerium ( Ce ) : 0.03%
Neodymium ( Nd ) : 0.02%
Preseodymium ( Pr ) : 0.02%

Versatile Applications in Industry and Research

Lanthanum Nitrate is utilized across various fields, including the manufacture of specialty glass, ceramics, and as a catalyst in chemical reactions. Its high purity and solubility make it a valuable laboratory reagent and essential for research and industrial innovation. The compounds reliable oxidizing properties contribute to consistent results in chemical synthesis and advanced material development.

Safe Storage and Handling

Due to its hygroscopic nature and oxidizing ability, Lanthanum Nitrate must be stored in tightly sealed containers away from moisture, organic materials, and strong reducing agents. Compliance with Hazard Class 5.1 transport and storage guidelines ensures safety for users and surroundings. Protective equipment and proper ventilation are highly recommended during handling.

Environmental and Health Precautions

This compound is toxic if ingested or inhaled, and may cause irritation on contact with eyes or skin. Avoid release into the environment as it poses risks to aquatic life. Adherence to safety data sheets, environmental controls, and responsible usage reduces health and environmental hazards, ensuring safe utilization.

FAQs of Lanthanum Nitrate:

Q: How should Lanthanum Nitrate be safely stored and handled in a laboratory or industrial setting?

A: Lanthanum Nitrate should be kept in tightly sealed containers within a cool, dry, and well-ventilated space, away from strong reducing agents and organic materials. Personal protective equipment should be worn, and spills avoided, as the compound is toxic and may irritate the eyes, skin, or respiratory system.

Q: What are the primary uses and benefits of Lanthanum Nitrate in industry and laboratories?

A: Lanthanum Nitrate is valued for its application in the fabrication of specialty glass, ceramics, and catalysts, as well as for its role as a laboratory reagent. Its high purity and strong oxidizing capacity make it ideal for ensuring precise and efficient chemical reactions and material synthesis.

Q: When should precautions be taken regarding Lanthanum Nitrates incompatibilities?

A: Precautions should be observed at all times when handling or storing Lanthanum Nitrate to prevent contact with strong reducing agents and organic materials. This is crucial to avoid hazardous reactions due to its oxidizing properties.

Q: Where is Lanthanum Nitrate most commonly used and by whom?

A: Lanthanum Nitrate is employed in chemical laboratories, glass and ceramic manufacturing, and in catalyst production. It is handled by scientific researchers, industrial technicians, exporters, manufacturers, and suppliersespecially in regions like India where it is widely distributed.

Q: What is the process for disposing of Lanthanum Nitrate safely?

A: Dispose of Lanthanum Nitrate according to local environmental and hazardous waste regulations. Prevent the substance from entering water systems as it is harmful to aquatic life. All disposal containers should be properly labeled and handled by trained personnel.

Q: How does the high solubility and hygroscopic nature of Lanthanum Nitrate affect its usage?

A: Because Lanthanum Nitrate readily absorbs moisture and dissolves in water, it must be protected from humidity during storage and use. This characteristic enhances its suitability in aqueous processes and as a reagent, but requires attentive handling to maintain product quality.

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