Unlock the Potential of Indole Derivatives: Exploring (1H-Indol-3-yl)(2,2,3,3-tetramethylcyclopropyl)methanone in Research and Development
Discover the intricate world of indole derivatives with our in-depth analysis of (1H-Indol-3-yl)(2,2,3,3-tetramethylcyclopropyl)methanone. This molecule is key to understanding synthetic cannabinoids and their effects.
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Indolyl Tetramethylcyclopropyl Methanone
As a leading supplier in China, we provide high-purity Indolyl Tetramethylcyclopropyl Methanone, a critical compound for advanced chemical synthesis and research. Our commitment to quality ensures reliable results for your projects.
- Explore the scaffold for synthetic cannabinoids like UR-144 and XLR11, crucial for research applications.
- Understand the CB2 receptor selectivity, vital for developing targeted therapeutic agents.
- Investigate its analgesic, antiemetic, and hypothermic properties, offering potential for new drug discovery.
- Leverage its importance in forensic toxicology research, aiding in the identification and analysis of controlled substances.
Key Advantages Offered
High Purity Synthesis
Our expertise in chemical synthesis ensures a high-purity product, critical for accurate drug discovery and research outcomes.
Advanced Research Applications
This compound is instrumental in drug metabolism studies, contributing to a deeper understanding of chemical transformations in biological systems.
Reliable Supplier in China
Count on us as your dependable manufacturer in China for consistent supply and quality assurance in all your chemical procurement needs.
Key Applications
Chemical Synthesis
Utilized in complex organic synthesis, this indole derivative is a key building block for novel compounds.
Forensic Science
Essential for forensic toxicology research, aiding in the detection and analysis of substances.
Pharmaceutical R&D
Investigate its potential therapeutic applications, particularly those related to cannabinoid receptor modulation.
Academic Research
A valuable tool for academic institutions exploring structure-activity relationships and biochemical pathways.