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Catalog Number:
19194
CAS Number:
33537-99-4
6-Chloro-1,2,3,4-tétrahydroisoquinoléine
Purity:
≥ 96% (CG)
Documents
$208.31 /100 mg
Taille
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Product Information

6-Chloro-1,2,3,4-tetrahydroisoquinoline is a versatile chemical compound recognized for its significant role in pharmaceutical research and development. This compound, characterized by its unique tetrahydroisoquinoline structure, serves as a valuable building block in the synthesis of various bioactive molecules. Its chlorinated derivative enhances its reactivity, making it an ideal candidate for medicinal chemistry applications, particularly in the development of novel therapeutic agents targeting neurological disorders and other health conditions.

Researchers have utilized 6-Chloro-1,2,3,4-tetrahydroisoquinoline in the synthesis of compounds with potential anti-inflammatory and analgesic properties, showcasing its relevance in drug discovery. Its unique properties allow for modifications that can lead to the creation of targeted therapies, making it a crucial component in the pharmaceutical industry. The compound's ability to facilitate the development of complex molecular architectures further underscores its importance in advancing medicinal chemistry and enhancing therapeutic efficacy.

CAS Number
33537-99-4
Purity
≥ 96% (CG)
Molecular Formula
C9H10ClN
Molecular Weight
167.64
MDL Number
MFCD06739156
PubChem ID
11789594
Appearance
Violet clair uni
Conditions
Conserver à 0-8 °C
General Information
CAS Number
33537-99-4
Purity
≥ 96% (CG)
Molecular Formula
C9H10ClN
Molecular Weight
167.64
MDL Number
MFCD06739156
PubChem ID
11789594
Appearance
Violet clair uni
Conditions
Conserver à 0-8 °C
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

6-Chloro-1,2,3,4-tetrahydroisoquinoline is widely utilized in research focused on:

  • Pharmaceutical Development: This compound serves as a key intermediate in the synthesis of various pharmaceuticals, particularly those targeting neurological disorders, enhancing drug efficacy and specificity.
  • Organic Synthesis: It is employed in organic chemistry for the construction of complex molecular architectures, allowing chemists to create diverse compounds with potential therapeutic applications.
  • Biological Research: Researchers use this chemical to study its effects on biological systems, contributing to the understanding of its role in modulating neurotransmitter activity.
  • Material Science: The compound is explored for its potential in developing new materials with unique properties, such as conducting polymers or advanced coatings.
  • Natural Product Synthesis: It acts as a building block in the synthesis of natural products, facilitating the discovery of new compounds with medicinal properties.

Citations