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Catalog Number:
23732
CAS Number:
1188263-58-2
Oxalate de 3-(2-chlorobenzyl)pyrrolidine
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$276.21 /100 mg
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Product Information

3-(2-Chlorobenzyl)Pyrrolidine Oxalate is a versatile compound with significant applications in medicinal chemistry and pharmaceutical research. This compound, characterized by its unique structure, is recognized for its potential in the development of novel therapeutic agents. Its ability to interact with various biological targets makes it a valuable candidate for drug discovery, particularly in the fields of neuropharmacology and anti-cancer research. Researchers have noted its effectiveness in modulating neurotransmitter systems, which could lead to advancements in treatments for neurological disorders.

In addition to its medicinal applications, 3-(2-Chlorobenzyl)Pyrrolidine Oxalate serves as a useful intermediate in organic synthesis, facilitating the creation of more complex molecules. Its stability and reactivity profile allow for straightforward incorporation into various synthetic pathways, making it an attractive option for chemists looking to streamline their processes. With its broad range of applications, this compound stands out as a key player in both academic and industrial settings, promising to enhance the efficiency of research and development efforts.

CAS Number
1188263-58-2
Molecular Formula
C11H14ClN · C2H2O4
Molecular Weight
285.73
MDL Number
MFCD04117743
PubChem ID
2735373
Conditions
Conserver à 0-8°C
General Information
CAS Number
1188263-58-2
Molecular Formula
C11H14ClN · C2H2O4
Molecular Weight
285.73
MDL Number
MFCD04117743
PubChem ID
2735373
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

3-(2-Chlorobenzyl)Pyrrolidine Oxalate is widely utilized in research focused on

  • Pharmaceutical Development: This compound serves as a key intermediate in the synthesis of various pharmaceuticals, particularly in the development of drugs targeting neurological disorders.
  • Organic Synthesis: It is employed in organic synthesis as a building block for creating more complex molecules, making it valuable for chemists in both academic and industrial settings.
  • Material Science: The compound can be used to modify polymer properties, enhancing material performance in applications such as coatings and adhesives.
  • Biological Research: Researchers utilize it to study its effects on biological systems, contributing to the understanding of cellular mechanisms and potential therapeutic effects.
  • Analytical Chemistry: It is also applied in analytical methods for detecting and quantifying related compounds, aiding in quality control processes in various industries.

Citations