High Purity (S)-(+)-2-Amino-3-methyl-1-butanol CAS 2026-48-4
A critical chiral amino alcohol for advanced pharmaceutical and fine chemical synthesis.
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(S)-(+)-2-Amino-3-methyl-1-butanol
This compound is a crucial chiral amino alcohol that serves as a versatile building block in asymmetric synthesis. Its high purity (99%) and specific stereochemistry make it invaluable for creating enantiomerically pure compounds, which are essential for the efficacy and safety of pharmaceutical drugs and advanced fine chemicals.
- As a key pharmaceutical intermediate, it is vital for the synthesis of chiral drugs, ensuring targeted therapeutic effects with reduced side effects.
- The compound's role in L-Valinol synthesis facilitates the creation of complex molecules, driving innovation in medicinal chemistry.
- Utilizing this CAS 2026-48-4 intermediate supports the development of MDM2 inhibitors and other critical cancer therapeutics.
- Its application in asymmetric synthesis allows for precise molecular construction, critical for creating enantiomerically pure compounds.
Key Advantages
Enhanced Chirality Control
Leverage the inherent chirality of this amino alcohol for precise asymmetric synthesis, a cornerstone for developing stereochemically pure active pharmaceutical ingredients (APIs).
Broad Synthetic Utility
Explore the wide range of L-Valinol synthesis possibilities, enabling the preparation of imines, oxazolines, and complex intermediates for various therapeutic classes.
High Purity and Reliability
Benefit from a minimum purity of 99%, ensuring consistent and reliable results in demanding research and manufacturing processes.
Key Applications
Pharmaceutical Intermediate
Serves as a fundamental building block in the synthesis of numerous pharmaceuticals, particularly in creating chiral centers essential for drug activity.
Fine Chemical Synthesis
A versatile reagent in the preparation of specialized fine chemicals, enabling complex molecular architectures for diverse industrial uses.
Chiral Catalyst Development
Used in the design and synthesis of chiral ligands and catalysts for asymmetric transformations, crucial for enantioselective reactions.
Medicinal Chemistry Research
Enables research into novel therapeutic agents, including intermediates for cancer treatments and antihypertensive drugs, by providing a stereochemically defined foundation.