Nitromethaqualone (CAS 340-52-3): An Analytical Reference Standard for Quinazolinone Research and Forensic Applications
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Nitromethaqualone
Nitromethaqualone, identified by CAS 340-52-3, stands as a pivotal analytical reference standard within the quinazolinone chemical class. Its significance lies in its well-defined properties, making it indispensable for accurate identification and differentiation in various analytical contexts, particularly in forensic science. The compound's potent sedative and hypnotic effects, exceeding those of its parent compound methaqualone, underscore its utility in understanding the pharmacological profiles of CNS depressants. As a key component in research endeavors, it enables scientists to establish benchmarks for detecting and quantifying related substances, thereby supporting advancements in toxicology and chemical analysis.
- Leveraging Nitromethaqualone CAS 340-52-3 for precise forensic identification in complex casework, ensuring reliable substance analysis.
- Exploring the pharmacology of CNS depressants through the study of nitromethaqualone's potent sedative and hypnotic effects.
- Utilizing quinazolinone derivatives as critical benchmarks in analytical chemistry for accurate quantification and differentiation.
- Enhancing analytical reference standard applications in research, providing a reliable standard for method development and validation.
Key Advantages
High Purity and Reliability
Benefit from the consistent high purity of Nitromethaqualone, a crucial factor when using it as an analytical reference standard in sensitive forensic and research applications.
Crucial for Forensic Analysis
Nitromethaqualone is essential for accurate identification and differentiation of quinazolinone derivatives, supporting critical forensic casework.
Enhanced Potency for Research
Its significantly higher potency compared to methaqualone makes it an important compound for studying the pharmacology of CNS depressants and related mechanisms.
Key Applications
Forensic Science
Essential for identifying and quantifying controlled substances and their analogues in forensic toxicology and criminal investigations, utilizing its role as an analytical reference standard.
Pharmaceutical Research
Used in research to understand the structure-activity relationships of quinazolinone derivatives and their pharmacological effects on the central nervous system.
Chemical Analysis
Serves as a critical benchmark for developing and validating analytical methods, ensuring accuracy in detecting and measuring related compounds in various matrices.
Toxicology Studies
A key compound for toxicological assessments, helping to understand the effects and detection of synthetic psychoactive substances.