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TETRA BUTYL AMMONIUM NITRITE

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TETRA BUTYL AMMONIUM NITRITE Specification

Molecular Formula
C16H36N2O2

Moisture (%)
<0.5%

HS Code
29211990

Storage
Store in a cool and dry place, tightly closed

Loss on Drying
<1.0%

EINECS No
212-740-3

Assay
>98%

Heavy Metal (%)
<0.001%

Molecular Weight
258.39 g/mol

Melting Point
120-123C

Particle Size
Fine powder

Place of Origin
India

Boiling point
Decomposes before boiling

Residue on Ignition
<0.1%

Other Names
Tetrabutylammonium nitrite, TBAN

CAS No
865-48-5

Type
Inorganic Salt

Grade
Reagent Grade

Usage
Laboratory Reagent, Organic Synthesis, Phase Transfer Catalyst

Purity
98% Min.

Appearance
Crystalline Solid

Application
Analytical Chemistry, Organic Syntheses, Intermediate

Raw Material
Tetrabutylammonium bromide, Sodium nitrite

Smell
Odorless

Color
White to Off-White

Form
Solid

Shelf Life
24 months from date of manufacturing

Stability
Stable under recommended storage conditions

Toxicity
Harmful if swallowed; handle with proper safety precautions

Flash Point
Not applicable (decomposes upon heating)

Solubility
Soluble in water and polar organic solvents

Packaging
Plastic bottle or fiber drum, as per requirement

Density
1.06 g/cm³ at 20°C

TETRA BUTYL AMMONIUM NITRITE Trade Information

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

Main Domestic Market
All India

About TETRA BUTYL AMMONIUM NITRITE

Tetra butyl ammonium nitrite (TBAN) is a chemical compound with the formula (C4H9)4NNO2. It is an organic salt that is commonly used as a reagent in organic synthesis. TBAN is a pale yellow to yellowish-brown liquid that is soluble in most organic solvents, such as ethanol, ether, and benzene.

TBAN is primarily used as a radical initiator in free-radical polymerizations. It is also used as a source of nitrite ions in organic reactions. Additionally, TBAN can be used as a phase transfer catalyst and as an additive in the electroplating industry.

TBAN is a hazardous chemical and should be handled with care. It is a powerful oxidizing agent and can react violently with many substances, including combustible materials, reducing agents, and strong acids. Contact with skin or eyes can cause severe irritation or burns. Proper personal protective equipment and handling procedures should be used when working with TBAN.

Wide Applications in Synthesis and Catalysis

Tetra Butyl Ammonium Nitrite plays a vital role as a phase transfer catalyst and reagent in organic syntheses, making it indispensable for researchers and chemists. Its purity and consistent particle size facilitate reliable reactions, making it a preferred choice in analytical chemistry and as an intermediate for various organic compounds.

Safe Handling and Storage Guidelines

Given its harmful nature if ingested, Tetra Butyl Ammonium Nitrite should be managed with strict safety protocols, including use of gloves and eye protection. For optimal longevity, store the compound in a cool, dry place using tightly closed containers. Adhering to these measures helps maintain its efficacy throughout its 24-month shelf life.

FAQ's of TETRA BUTYL AMMONIUM NITRITE:

Q: How should Tetra Butyl Ammonium Nitrite be safely handled during laboratory procedures?

A: Wear protective gloves and eye protection to prevent direct contact, avoid ingestion, and ensure all handling occurs within a well-ventilated area. Adhere to established laboratory safety protocols, as TBAN is harmful if swallowed.

Q: What is the recommended storage condition for maintaining product stability and shelf life?

A: Store Tetra Butyl Ammonium Nitrite in a tightly closed container, kept in a cool and dry environment, away from moisture and heat sources. This ensures stability and preserves its shelf life of 24 months from manufacture.

Q: When is Tetra Butyl Ammonium Nitrite most beneficial for laboratory synthesis?

A: TBAN is most advantageous when used as a phase transfer catalyst or reagent in analytical chemistry and organic syntheses, particularly when reactions require high purity and predictable solubility in water or polar solvents.

Q: Where can this chemical be sourced if needed for analytical chemistry or organic synthesis applications?

A: Tetra Butyl Ammonium Nitrite is available from reputable exporters, manufacturers, and suppliers in India, with packaging tailored to requirements such as plastic bottles or fiber drums.

Q: What processes require Tetra Butyl Ammonium Nitrite as an intermediate or catalyst?

A: It is utilized in organic transformations, phase transfer reactions, and as an intermediate in the synthesis of complex organic molecules, enhancing reaction efficiency and selectivity in these specialized processes.

Q: Can you describe the benefit of using Tetra Butyl Ammonium Nitrite with its specified purity and form?

A: Its high purity (>98%) and fine powder form contribute to consistent, reproducible results in high-precision laboratory and industrial applications, reducing contamination risk and improving product quality.

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