1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution

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1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution

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1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution Specification

Boiling point
100C (water based)

Acid Value
<1 mg KOH/g

Moisture (%)
Balance (water as solution)

Residue on Ignition
<0.2%

Ph Level
Alkaline, typically >12

Loss on Drying
<1.0%

HS Code
29349900

Heavy Metal (%)
<0.001%

Molecular Weight
217.30 g/mol

Molecular Formula
C13H17N2OH

Melting Point
Not Applicable (liquid form)

Particle Size
Not applicable (solution)

Place of Origin
India

Storage
Store in cool, dry, well-ventilated area

Assay
97-99%

Viscosity
1.05-1.12 cP at 25C

Other Names
1H-Imidazolium, 1,2-dimethyl-3-(4-methylphenyl)methyl-, hydroxide, aqueous solution

CAS No
876844-36-3

Type
Chemical Intermediate

Grade
Laboratory/Industrial Grade

Usage
Research, Synthetic Intermediate

Purity
98% min.

Appearance
Clear to slightly hazy liquid

Application
Organic synthesis, Catalysis

Raw Material
Imidazole, 4-Methylbenzyl chloride

Smell
Characteristic

Color
Colorless to pale yellow

Form
Aqueous Solution

Packaging
HDPE Bottles, 500 mL / 1 L / 5 L

Refractive Index (nD 20°C)
1.340-1.360

Stability
Stable under recommended storage conditions

Solubility
Miscible with water

Shelf Life
12 months from date of manufacture

Transport Information
Non-dangerous good

pH of Solution (1%)
12.2-13.5

Biodegradability
Not readily biodegradable

Hazard Class
Not classified as hazardous

Density
1.06-1.12 g/cm3 at 25°C

1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution Trade Information

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

About 1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution

An example of an ionic liquid is 1H-Imidazolium 1,2-dimethyl-3-(4-methylphenyl)methyl-hydroxide aq. solution, which is a salt that is liquid at or near room temperature. It is typically utilised as a solvent or catalyst in organic synthesis and has the molecular formula C13H17N2O.

An imidazolium cation, consisting of a five-membered ring with two nitrogen atoms and a methyl group linked to one of the nitrogen atoms, is present in this particular ionic liquid. The other nitrogen atom of the cation is joined to a 1,2-dimethyl-3-(4-methylphenyl)methyl group. This solution is a basic solution, which is advantageous in several chemical reactions because of the hydroxide anion it contains. Due to its non-volatility and simplicity of recycling, this specific ionic liquid has been looked at for its potential as an environmentally friendly solvent.

Overall, 1H-Imidazolium 1,2-dimethyl-3-(4-methylphenyl)methyl-hydroxide aq. solution has prospective uses in organic synthesis as a solvent or a catalyst, and due to its eco-friendliness, it is a viable choice for operations that protect the environment.

Frequently Asked Questions

Q. What is imidazolium?

A. Imidazolium is a type of organic compound that incorporates an imidazole ring with a connected alkyl institution. The alkyl institution can be various, resulting in a huge variety of imidazolium derivatives with specific properties.

Q. What are imidazolium salts?

A. Imidazolium salts are a form of ionic liquid that includes an imidazolium cation and an anion. They're used as solvents, electrolytes, and catalysts in an expansion of chemical reactions.

Q. What are imidazolium-primarily based ionic drinks?

A. Imidazolium-based ionic drinks are a kind of ionic liquid that incorporates an imidazolium cation and an anion. They're recognized for their unique properties, which include low melting factors, excessive thermal stability, and high solubility in organic solvents.

Q. What are the programs for imidazolium-based totally ionic beverages?

A. Imidazolium-primarily based ionic liquids have a huge variety of packages, together with solvents for chemical reactions, as electrolytes in batteries and fuel cells, as lubricants, and as sorbents for gas separation.

Key Properties and Performance

1H-Imidazolium 1,2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide stands out due to its high stability, strong alkalinity, and excellent water solubility. With a density between 1.06 and 1.12 g/cm3 at 25C and a viscosity of 1.05-1.12 cP, this solution remains reliable in various research settings. Its clear or slightly hazy appearance reflects its high assay and purity levels, while its characteristic odour signifies authenticity.

Applications and Benefits

Primarily used as a chemical intermediate, this compound is vital for organic synthesis, catalysis, and as a synthetic intermediate. Its high purity ensures consistent results and efficiency in chemical reactions, making it ideal for laboratory and industrial applications. Users benefit from its straightforward storage, non-hazardous nature, and versatility across a wide context of scientific research.

Handling and Storage Guidelines

To preserve quality, store the product in a cool, dry, and well-ventilated area, away from direct light and incompatible substances. The recommended packaging material, HDPE bottles, safeguards the solution's stability and integrity throughout its 12-month shelf life. Proper handling ensures consistent performance for your research or production processes.

FAQ's of 1h-Imidazolium 1 2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide Aq. Solution:

Q: How should 1H-Imidazolium 1,2-Dimethyl-3-(4-Methyl Phenyl) Methyl - Hydroxide aqueous solution be stored for optimal stability?

A: Store the solution in a cool, dry, and well-ventilated area, away from heat and direct sunlight. Always keep it tightly sealed in its original HDPE container to maintain stability for up to 12 months from the manufacture date.

Q: What is the recommended usage of this compound in research and synthesis?

A: This aqueous solution is widely used as a chemical intermediate and catalyst in organic synthesis and laboratory research. Its high purity and strong alkaline nature make it effective in facilitating a variety of synthetic pathways.

Q: When does the solution reach the end of its recommended shelf life?

A: The product's shelf life is 12 months from the date of manufacture. It is advisable to check the label or certificate of analysis for the exact expiration date to ensure optimal results.

Q: Where can this solution be obtained, and in what packaging sizes?

A: Manufactured and exported from India, the solution is available globally through various chemical suppliers. It comes in HDPE bottles with options of 500 mL, 1 L, and 5 L to accommodate different scales of laboratory and industrial needs.

Q: What are the main benefits of using this chemical intermediate in research and industrial settings?

A: Key benefits include its high solubility in water, robust alkaline pH, stability under recommended conditions, and non-hazardous classification for storage and transport. These attributes ensure safety, reliable performance, and ease of use.

Q: How does the solution's pH and chemical properties contribute to its functionality?

A: With a strong alkaline pH (12.2-13.5), the solution is well-suited for catalytic and synthetic reactions, enhancing process efficiency. Its refractive index and miscibility with water further support diverse laboratory and industrial applications.

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