Boc-(S)-3-Amino-4-(3-thienyl)-butyric Acid: Your Synthesis Partner
Discover a crucial chiral building block for your advanced chemical and pharmaceutical research needs.
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Boc-(S)-3-Amino-4-(3-thienyl)-butyric Acid
This compound serves as a vital intermediate in complex organic synthesis, particularly for developing novel pharmaceuticals and research molecules. Its specific structure makes it invaluable for introducing chiral centers and thienyl functionalities.
- Explore the detailed properties and applications of Boc-(S)-3-Amino-4-(3-thienyl)-butyric acid preparation for your next project.
- Sourcing Boc-(S)-3-Amino-4-(3-thienyl)-butyric acid suppliers? We provide reliable access to this essential compound.
- Understand the intricacies of Boc-(S)-3-Amino-4-(3-thienyl)-butyric acid synthesis and its importance in creating advanced materials.
- Learn about the chemical properties associated with CAS 270263-00-8, crucial for process optimization.
Key Advantages
Chiral Purity
Leverage the specific chirality of this molecule to ensure stereoselectivity in your synthetic pathways, a key aspect of developing effective amino acid derivatives for research.
Thienyl Moiety Integration
Effectively incorporate the sulfur-containing thienyl ring into your target molecules, which is often a critical feature in drug discovery and materials science.
Versatile Building Block
Utilize this compound as a fundamental component for constructing more complex molecular architectures, supporting a wide range of chemical synthesis projects.
Key Applications
Pharmaceutical Synthesis
A critical intermediate for the synthesis of active pharmaceutical ingredients (APIs) and drug candidates, often utilized in early-stage drug development and peptide synthesis reagents.
Biochemical Research
Essential for academic and industrial researchers exploring novel biological pathways, protein interactions, or designing new therapeutic agents using chiral building blocks.
Organic Synthesis
Serves as a versatile starting material in various organic transformations, enabling the creation of complex molecules with specific functional groups for custom chemical synthesis.
Material Science
Potential applications in developing new functional materials where the thienyl group can impart unique electronic or structural properties, supporting organic synthesis building blocks initiatives.
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