High-Purity 4-Amino-p-terphenyl (CAS 7293-45-0): A Key Intermediate for Pharmaceutical and Organic Synthesis
Discover the essential properties and applications of this vital organic compound for your R&D needs.
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4-Amino-p-terphenyl
4-Amino-p-terphenyl, identified by CAS number 7293-45-0, is a crucial organic chemical intermediate renowned for its high purity and versatile applications in pharmaceutical synthesis and broader organic chemistry research. This compound serves as a fundamental building block for developing complex molecules and active pharmaceutical ingredients (APIs).
- Leverage 4-Amino-p-terphenyl CAS 7293-45-0 pharmaceutical intermediate capabilities to accelerate your drug discovery pipeline.
- Benefit from buying 4-Amino-p-terphenyl high purity for reliable and consistent experimental results.
- Utilize this excellent organic synthesis building block 7293-45-0 to create novel chemical structures.
- Explore the unique 4-(4-phenylphenyl)aniline properties for advanced material science applications.
Advantages Delivered
Exceptional Purity
Ensuring at least 97% purity, this compound is ideal for applications demanding stringent quality control, critical for successful organic synthesis.
Versatile Building Block
As a key pharmaceutical intermediate, its terphenyl structure makes it invaluable for synthesizing a wide range of biologically active compounds.
Reliable Performance
The consistent physical properties, such as its white powder appearance and specific melting point, guarantee predictable performance in various chemical reactions.
Key Applications
Pharmaceutical Intermediates
Essential for the R&D and manufacturing of novel drug candidates, serving as a critical component in the synthesis of APIs, thus supporting the buy 4-Amino-p-terphenyl high purity market.
Organic Synthesis
Its robust chemical structure makes it a valuable organic synthesis building block 7293-45-0 for creating complex organic molecules and advanced materials.
Research and Development
Widely used in academic and industrial research labs for exploring new chemical pathways and developing innovative products, highlighting its utility as a terphenyl amine for R&D.
Material Science
The unique electronic and structural properties of terphenyl derivatives are explored in material science, including potential applications in organic electronics.