N-Butylpyridinium bromide

99%

Product Code: 79737

Alias: N-butylpyridine bromide ; 1-butylpyridine bromide

CAS: 874-80-6

Molecular Weight:	216.12 g./mol	Molecular Formula:	C₉H₁₄BrN
EC Number:		MDL Number:	MFCD00671496
Melting Point:	104-107°C	Boiling Point:
Density:		Storage Condition:	2-8℃

Product Description: This chemical is widely used as an ionic liquid in various industrial and research applications. It serves as a solvent in organic synthesis, particularly in reactions where traditional solvents are ineffective. Its unique properties make it suitable for use in electrochemical applications, such as in batteries and capacitors, due to its high ionic conductivity and stability. Additionally, it is employed in catalysis, where it enhances reaction efficiency and selectivity. In material science, it is utilized for the preparation of advanced materials, including polymers and nanocomposites. Its role in extraction processes, especially for separating specific compounds from mixtures, is also noteworthy. Overall, it is a versatile compound with significant contributions to multiple scientific and industrial fields.

Product Specification:

Test	Specification
Melting point	102 106?
Purity	97 100%
APPEARANCE	White to beige Crystalline powder or crystals

Sizes / Availability / Pricing:

Size (g)	Availability	Price	Quantity
1.000	10-20 days	฿400.00	+ -
5.000	10-20 days	฿820.00	+ -
25.000	10-20 days	฿2,450.00	+ -
100.000	10-20 days	฿7,460.00	+ -

N-Butylpyridinium bromide

This chemical is widely used as an ionic liquid in various industrial and research applications. It serves as a solvent in organic synthesis, particularly in reactions where traditional solvents are ineffective. Its unique properties make it suitable for use in electrochemical applications, such as in batteries and capacitors, due to its high ionic conductivity and stability. Additionally, it is employed in catalysis, where it enhances reaction efficiency and selectivity. In material science, it is utilized for the preparation of advanced materials, including polymers and nanocomposites. Its role in extraction processes, especially for separating specific compounds from mixtures, is also noteworthy. Overall, it is a versatile compound with significant contributions to multiple scientific and industrial fields.

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