High-Purity 1-(7-Bromo-9,9-difluoro-9H-fluoren-2-yl)-2-chloroethanone
A critical pharmaceutical intermediate essential for Ledipasvir synthesis, ensuring quality and efficacy in antiviral drug production.
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1-(7-Bromo-9,9-difluoro-9H-fluoren-2-yl)-2-chloroethanone
This high-purity chemical intermediate, known as 1-(7-Bromo-9,9-difluoro-9H-fluoren-2-yl)-2-chloroethanone (CAS 1378387-81-5), plays a pivotal role in the advanced organic synthesis pathways for Ledipasvir. Its precise molecular structure and high purity are critical for the efficacy and safety of the final pharmaceutical product.
- Leverage the reliable supply of this key Ledipasvir intermediate to streamline your pharmaceutical production processes.
- Ensure product quality with a chemical intermediate boasting a purity of ≥99.0%, crucial for demanding antiviral drug manufacturing.
- Benefit from the consistent physical properties, appearing as a white to light yellow powder to crystal, facilitating smooth handling in synthesis.
- Explore efficient synthesis routes by integrating this fluorene derivative into your chemical processes, supporting complex drug development.
Advantages Offered
Guaranteed Purity for Pharmaceutical Applications
Achieve consistent results in your Ledipasvir synthesis by utilizing a chemical intermediate with a minimum purity of 99.0%, a standard that meets stringent pharmaceutical requirements and helps avoid unwanted side reactions.
Critical for Antiviral Drug Efficacy
As a vital building block for Ledipasvir, this intermediate directly contributes to the effectiveness of antiviral treatments, underscoring its importance in pharmaceutical research and development.
Reliable Sourcing and Supply Chain
Access a stable and dependable supply of this essential pharmaceutical intermediate from reputable global suppliers, ensuring your production schedules remain on track for your buy needs.
Key Applications
Ledipasvir Synthesis
This compound is indispensable as a precursor in the multi-step synthesis of Ledipasvir, a critical component in Hepatitis C treatments. Its specific chemical structure is designed to facilitate key reactions in the pathway.
Pharmaceutical Intermediate Manufacturing
Beyond Ledipasvir, this chemical may serve as a versatile intermediate in the broader field of pharmaceutical manufacturing, especially for compounds requiring fluorene-based structural motifs and reactive chloroethanone groups.
Advanced Organic Synthesis
Researchers and chemists in advanced organic synthesis can utilize this compound for developing novel molecules or exploring new reaction mechanisms, leveraging its unique chemical functionalities for diverse research projects.
Antiviral Drug Development
The demand for effective antiviral treatments continues to grow, making intermediates like this crucial for the ongoing research and development of next-generation antiviral medications, supporting procurement for R&D.