9-Aminoacridine Hydrochloride Hydrate: A Versatile Pharmaceutical Intermediate
Explore the key properties and potential applications of 9-Aminoacridine Hydrochloride Hydrate, a vital component in advanced organic synthesis and photodynamic therapy research.
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9-Aminoacridine Hydrochloride Hydrate
As a leading supplier in China, we offer high-quality 9-Aminoacridine Hydrochloride Hydrate (CAS: 52417-22-8), a crucial heterocyclic intermediate for various advanced chemical applications. Its potential as a prospective PDT drug highlights its significance in novel therapeutic development. We are committed to providing reliable products and services to meet diverse customer needs.
- Investigating 9-Aminoacridine Hydrochloride Hydrate properties is crucial for understanding its behavior in photodynamic therapy.
- The 9-Aminoacridine Hydrochloride Hydrate synthesis pathways are continuously being optimized by manufacturers.
- This compound is recognized as a prospective PDT drug, showcasing its therapeutic promise.
- As a key material for heterocyclic pharmaceutical intermediates, it plays a vital role in drug discovery.
Advantages Offered
High Purity and Quality
With a purity of 97% min, our 9-Aminoacridine Hydrochloride Hydrate ensures reliable performance in complex organic synthesis and research, supporting your pharmaceutical intermediates projects.
Therapeutic Potential
Its classification as a prospective PDT drug offers exciting avenues for research and development in novel cancer therapies and antibacterial applications.
Versatile Chemical Intermediate
This compound is a valuable building block for various complex organic molecules, making it essential for research focused on heterocyclic pharmaceutical intermediates.
Key Applications
Pharmaceutical Intermediates
Essential for the synthesis of active pharmaceutical ingredients and complex drug molecules, contributing to advancements in drug discovery and supporting 9-Aminoacridine Hydrochloride Hydrate synthesis.
Photodynamic Therapy (PDT)
Explored for its efficacy as a photosensitizer in PDT, demonstrating potential in targeted cancer treatment and antimicrobial strategies, underscoring its role as a PDT drug.
Organic Synthesis
Serves as a crucial reagent and building block in diverse organic reactions, enabling the creation of novel chemical structures and advanced materials for research into heterocyclic compounds.
Scientific Research
Used in studies focusing on photoinduced electron transfer and excited-state proton transfer, providing insights into fundamental chemical processes and supporting its properties research.