Understanding (betaR,gammaR)-gamma-Ethyl-3-methoxy-N,N,beta-trimethylbenzenepropanamine Hydrochloride: Properties, Applications, and Supply
A deep dive into the properties, uses, and global availability of this key chemical intermediate.
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(betaR,gammaR)-gamma-Ethyl-3-methoxy-N,N,beta-trimethylbenzenepropanamine hydrochloride
This compound, identified by CAS number 175591-17-0, is a crucial fine chemical often utilized as a pharmaceutical intermediate. Its distinct molecular structure and properties make it valuable in various chemical synthesis pathways, contributing to the development of advanced materials and therapeutic agents.
- Leveraging CAS 175591-17-0 properties for enhanced chemical synthesis processes, this intermediate plays a vital role in creating complex organic molecules.
- Sourcing pharmaceutical intermediates with reliable quality is essential for R&D, and this compound meets stringent standards for purity and consistency.
- Exploring the applications of O-Methyl Tapentadol Hydrochloride in chemical research reveals its potential in developing novel compounds with specific pharmacological activities.
- Understanding chemical compound applications in advanced materials highlights the importance of intermediates like this in driving innovation across industries.
Key Advantages
Reliable Supply Chain
Access to a robust network of chemical suppliers ensures consistent availability, a critical factor for long-term research and production needs, making it easier to buy (betaR,gammaR)-gamma-Ethyl-3-methoxy-N,N,beta-trimethylbenzenepropanamine hydrochloride.
Quality Assurance
Products are supplied with detailed chemical safety data sheets and rigorous quality control, guaranteeing that the CAS 175591-17-0 properties meet the highest industry standards.
Versatile Chemical Intermediate
Its role as a fine chemical product allows for diverse applications in chemical synthesis, supporting innovation in pharmaceuticals and other specialized fields.
Key Applications
Pharmaceutical Intermediate Synthesis
Serving as a critical building block, this compound is vital for the synthesis of various active pharmaceutical ingredients (APIs), supporting the development of new drug therapies and enhancing pharmaceutical intermediate price competitiveness.
Fine Chemical Research
Researchers utilize this chemical in laboratory settings to explore new reaction pathways and discover novel compounds, contributing to the broader field of chemistry and material science.
Specialty Chemical Manufacturing
Its unique properties make it suitable for specialized manufacturing processes within the fine chemical sector, enabling the production of high-value-added products.
Chemical Synthesis Exploration
The availability of this intermediate allows chemists to experiment with different synthetic routes, expanding the possibilities in organic chemistry and discovery.