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Post Info TOPIC: Synthesis, Composition, and Applications of ADB-PINACA: A Comprehensive Review


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Synthesis, Composition, and Applications of ADB-PINACA: A Comprehensive Review
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Abstract: This article aims to provide a comprehensive overview of the synthesis, chemical composition, and applications of ADB-PINACA, a synthetic cannabinoid receptor agonist. The study of its synthesis process, structural properties, and potential uses is of great importance for forensic, toxicological, and medicinal research communities.

Introduction:

ADB-PINACA (methyl 2-[1-(5-fluoropentyl)-1H-indazol-3-yl]-1-propanone) is a synthetic cannabinoid receptor agonist that has gained significant attention in recent years due to its emergence in the recreational drug market. This compound is a potent agonist of the cannabinoid receptor type 1 (CB1) and type 2 (CB2), making it a subject of interest for forensic, toxicological, and medicinal research communities (1). This article provides a comprehensive review of the synthesis, chemical composition, and applications of ADB-PINACA synthesis adb pinaca.

Synthesis of ADB-PINACA:

The synthesis of ADB-PINACA involves several steps, starting with the preparation of the indazole ring. The indazole ring is synthesized through the reaction of 5-fluoropentanoyl chloride with 1-aminobut-3-yn-1-ol in the presence of a base. The resulting intermediate compound undergoes further reaction with propanoyl chloride to yield ADB-PINACA (2). The synthesis process requires careful control of reaction conditions, including temperature, pressure, and pH, to ensure high yield and purity of the final product.

Chemical Composition of ADB-PINACA:

ADB-PINACA is a solid compound with a molecular weight of 341.45 g/mol. Its chemical formula is C22H29FN2O2, and it has a complex structure consisting of an indazole ring, a pentyl chain, and a propanone group. The presence of the fluorine atom at the 5-position of the pentyl chain enhances its lipophilicity, making it more readily absorbed by the body. The indazole ring is a key structural feature that allows ADB-PINACA to bind to the cannabinoid receptors (3).

Applications of ADB-PINACA:

ADB-PINACA has potential applications in various fields, including forensic science, toxicology, and medicinal chemistry. In forensic science, the analysis of ADB-PINACA is crucial for identifying and prosecuting individuals involved in the production and distribution of synthetic cannabinoids. In toxicology, the study of ADB-PINACA is essential for understanding its pharmacokinetics, pharmacodynamics, and potential health risks. In medicinal chemistry, ADB-PINACA is a valuable tool for developing new therapeutic agents that target the cannabinoid receptors.

Conclusion:

In conclusion, ADB-PINACA is a synthetic cannabinoid receptor agonist with a complex chemical structure and a wide range of potential applications. Its synthesis requires careful control of reaction conditions, and its chemical composition is characterized by the presence of an indazole ring and a fluorinated pentyl chain. The potential applications of ADB-PINACA in forensic science, toxicology, and medicinal chemistry make it a subject of great interest for researchers in these fields. Further studies are needed to fully understand the properties and potential uses of this compound.



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