1-Bromotetradecane (Myristylbromide)

1-Bromotetradecane (Myristylbromide)

Overview

1-Bromotetradecane (Myristylbromide)

1-Bromotetradecane (Myristylbromide)

1-Bromotetradecane is a high-purity, transparent liquid derived from a pure source of C14 fatty alcohol and bromine from the Dead Sea. Its main applications include serving as a chemical intermediate in the production of agrochemical products, quaternary ammonium salts, and other specialties. Known for its highest available purity in the industrial market, 1-Bromotetradecane is well-suited for Grignard chemistry and other complex synthesis processes.

Boiling Point: 276°C

Typical Properties

Melting Point: 5-6°C

Typical Properties

Specific Gravity (20°C): 0.93-0.94

Typical Properties

Solubility in Water: Insoluble

Typical Properties

Flash Point (Open Cup): 110°C

Typical Properties

Appearance: Clear liquid

Specifications

Chemical Formula: CH3(CH2)12CH2Br

Specifications

CAS Number: 112-71-0

Specifications

Assay (GC): Min 99%

Specifications

Water Content (KF): Max 0.05%

Specifications

Acidity (PPM as HCl): Max 30

Specifications

Color (APHA): Max 100

Specifications

Packaging

Packaging

Standard Packaging

1-Bromotetradecane is available in 190 Kg epoxy-coated steel drums, with 4 drums per pallet.

Key Benefits

Key Benefits

Highest Purity
Available

Ensures superior performance in all applications.

Well-defined C14 Carbon Chain

Facilitates precise chemical reactions.

Unique Production Capability

Derived from high-quality raw materials.

REACH Registered

Compliant with European Union regulations for chemical substances.

ISO Certified
Production

Guarantees consistent quality and reliability.

Applications

Applications

Chemical Intermediate

Essential for producing various agrochemicals and quaternary ammonium salts.

Grignard Chemistry

Ideal for introducing a well-defined C14 carbon chain.

Specialty Chemicals

Used in the synthesis of unique specialty products.

Uses of 1-Bromotetradecane (Myristylbromide)
in the Pharmaceutical Industry

Uses of 1-Bromotetradecane (Myristylbromide)
in the Pharmaceutical Industry

These uses and benefits highlight the importance of 1-Bromotetradecane (Myristylbromide) in the pharmaceutical industry, emphasizing its role in improving drug properties, facilitating research and development, and ensuring cost-effective and efficient production processes.

Intermediate in Drug Synthesis

Building Block: Acts as a crucial intermediate in synthesizing various pharmaceutical compounds, facilitating the development of complex molecules needed for new drugs.

Intermediate in Drug Synthesis

Alkylating Agent: Used to introduce long-chain alkyl groups into molecules, essential for creating many pharmaceuticals.

API Production

API Synthesis: Utilized in the production of specific active pharmaceutical ingredients that require the introduction of myristyl groups into their structure.

Lipophilic Modifications

Enhancing Solubility: Employed to modify drug molecules to improve their lipophilicity, aiding in better solubility and absorption in the body.

Surfactants and Emulsifiers

Formulation Aids: Used in the formulation of surfactants and emulsifiers in pharmaceutical preparations to enhance the stability and delivery of active ingredients

Research and Development

Chemical Research: Used in pharmaceutical R&D to explore new drug candidates and chemical transformations.

Benefits of 1-Bromotetradecane (Myristylbromide)
in the Pharmaceutical Industry

Benefits of 1-Bromotetradecane (Myristylbromide)
in the Pharmaceutical Industry

These uses and benefits highlight the importance of 1-Bromotetradecane (Myristylbromide) in the pharmaceutical industry, emphasizing its role in improving drug properties, facilitating research and development, and ensuring cost-effective and efficient production processes.

Improved Drug Properties

Enhanced Solubility: By increasing the lipophilicity of drug molecules, 1-Bromotetradecane can enhance their solubility in biological systems, improving their bioavailability and therapeutic efficacy.

Improved Drug Properties

Better Absorption: The lipophilic modification helps in better absorption of drugs through cellular membranes.

Versatility

Multiple Applications: Its use as an intermediate and alkylating agent makes it a versatile component in drug synthesis, suitable for a wide range of pharmaceutical applications.

Stable Formulations

Formulation Stability: Assists in creating stable formulations of drugs, particularly in the development of emulsions and surfactants that improve drug delivery.

Research Facilitation

Chemical Innovation: Plays a significant role in pharmaceutical R&D, helping researchers develop new drugs and therapeutic agents through innovative chemical modifications.

Cost-Effective Production

Efficient Synthesis: Its reactivity and versatility can lead to cost-effective production processes, reducing overall manufacturing costs for pharmaceutical companies.

Targeted Drug Delivery

Selective Modification: Enables the selective modification of drug molecules, which can enhance the specificity and effectiveness of drug delivery to targeted tissues or organs.

Quality Improvement

Purity and Consistency: Ensures the high purity and consistency of pharmaceutical compounds, meeting stringent industry standards for drug development and production.