2',4'-Difluoroacetophenone: A Key Organic Synthesis Intermediate
Discover the essential properties and applications of 2',4'-Difluoroacetophenone, a critical building block in organic synthesis for pharmaceuticals, agrochemicals, and advanced materials. Explore its role in developing innovative chemical solutions.
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2',4'-Difluoroacetophenone
We are a trusted supplier in China, offering high-purity 2',4'-Difluoroacetophenone. This vital organic synthesis intermediate, CAS 364-83-0, is instrumental in creating complex molecules for various industries. Its unique fluorinated structure and reactivity make it a preferred choice for manufacturers and researchers focused on innovation and product advancement.
- Leveraging 2',4'-difluoroacetophenone organic synthesis intermediate capabilities, we facilitate the creation of novel chemical compounds.
- Our commitment to the synthesis of pharmaceuticals using 2',4'-difluoroacetophenone ensures high quality and reliability for drug development projects.
- Explore the potential of advanced materials development with fluorinated compounds, where our product serves as a crucial precursor.
- Understand the detailed CAS 364-83-0 chemical properties and its significance as an organic intermediate for agrochemicals.
Advantages Provided by the Product
High Purity and Reliability
With an assay purity of ≥98.5%, 2',4'-Difluoroacetophenone offers exceptional quality for your critical organic synthesis needs, ensuring consistent outcomes and reliable performance.
Enhanced Reactivity
The strategically placed fluorine atoms in its structure significantly boost its reactivity, making it an efficient building block for complex molecular architectures and chemical transformations.
Versatile Applications
This compound is a key component in the synthesis of pharmaceuticals, agrochemicals, and specialty chemicals, driving innovation across multiple industrial sectors.
Key Applications
Pharmaceutical Synthesis
As a critical intermediate, it aids in the development of new drugs and therapeutic agents, contributing to advancements in medicinal chemistry and healthcare solutions.
Agrochemical Development
It plays a role in creating effective pesticides and herbicides, supporting modern agriculture and crop protection efforts through precise chemical formulations.
Advanced Materials
The compound is utilized in the creation of high-performance materials and specialty chemicals, leveraging its unique fluorinated properties for enhanced functionality.
Organic Synthesis Research
Its versatile reactivity makes it an invaluable tool for researchers exploring new chemical pathways and developing innovative synthetic methodologies.