Dimethyl (2-Oxoheptyl)phosphonate: A Key Intermediate for Advanced Chemical Synthesis
Unlock the potential of advanced chemical synthesis with Dimethyl (2-Oxoheptyl)phosphonate, a versatile building block for pharmaceuticals and fine chemicals.
Get a Quote & SampleProduct Core Value
Dimethyl (2-Oxoheptyl)phosphonate
As a prominent supplier in China, we offer Dimethyl (2-Oxoheptyl)phosphonate, a critical intermediate for synthesizing Caffeic acid derivatives. These derivatives are vital for their roles as inhibitors of key enzymes like 5-lipoxygenase, 12-lipoxygenase, and prostaglandin synthase, making them valuable in the development of anti-inflammatory treatments and other pharmaceutical applications. We are a trusted manufacturer in China committed to high purity and reliable supply.
- Leveraging Dimethyl (2-Oxoheptyl)phosphonate synthesis for enhanced prostaglandin synthase inhibition pathways, crucial for pharmaceutical research.
- Utilizing this compound in chemical synthesis building blocks allows for the creation of novel molecules with diverse applications.
- As a key component in Horner-Wadsworth-Emmons reagents, it enables efficient C-C bond formation in organic synthesis.
- Our high-quality product is essential for developing advanced pharmaceutical intermediates, ensuring consistent R&D outcomes.
Advantages Provided by the Product
Versatile Chemical Intermediate
This compound serves as a foundational element in various organic synthesis reactions, contributing to the creation of complex molecules and the exploration of new pharmaceutical intermediates.
Enzyme Inhibition Properties
Its role in synthesizing Caffeic acid derivatives makes it instrumental in developing compounds that target specific enzymes, furthering research in areas like inflammation control and offering solutions for 5-lipoxygenase inhibitor applications.
Broad Application Spectrum
From pharmaceuticals to agrochemicals and materials science, its utility as a building block highlights its significance in driving innovation across multiple industries, supporting overall chemical synthesis advancements.
Key Applications
Pharmaceutical Synthesis
Crucial for producing Caffeic acid derivatives, enabling the development of drugs targeting inflammation and other biological processes, essential for drug synthesis.
Organic Synthesis Reagents
Acts as a vital component in complex organic reactions, supporting the creation of novel chemical structures and the advancement of organic synthesis methodologies.
Biochemical Research
Its application in creating enzyme inhibitors aids in understanding and modulating biological pathways, critical for research in enzymology and pharmacology, contributing to our understanding of enzyme inhibitors.
Fine Chemical Production
A valuable building block for producing high-purity fine chemicals, underpinning various industrial processes and product developments in the chemical sector, vital for fine chemical production.