2-(3,4-Difluorophenyl)aniline: A Versatile Intermediate for Pharmaceuticals and Advanced Materials
Unlock innovation with a key building block for groundbreaking drug discovery and cutting-edge materials.
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2-(3,4-Difluorophenyl)aniline
This vital chemical intermediate, identified by CAS number 873056-62-3, plays a crucial role in advancing scientific frontiers. Its unique fluorinated biphenyl structure enhances metabolic stability and lipophilicity, making it an indispensable component in the drug design and development of advanced pharmaceuticals. Furthermore, its chemical versatility allows for diverse functionalizations through its amino group, opening pathways for novel applications.
- Unlock innovation with a key building block for groundbreaking drug design and advanced materials. This intermediate is pivotal for kinase inhibitor development and CNS drug synthesis.
- Explore the potential for creating novel advanced materials such as liquid crystals and OLEDs, leveraging the unique electronic properties imparted by its difluorobiphenyl structure.
- Facilitate diverse chemical reactions and create complex molecules thanks to the presence of an amino group, essential for organic synthesis building block applications.
- Enhance metabolic stability and lipophilicity in drug design, a critical factor in developing effective pharmaceutical intermediates research and advanced materials synthesis.
Advantages Offered by the Product
Enhanced Bioavailability
The fluorinated biphenyl structure contributes to improved lipophilicity and metabolic stability, directly impacting drug design and increasing the efficacy of pharmaceutical intermediates research.
Versatile Functionalization
The readily reactive amino group allows for a wide range of chemical modifications, making it an excellent organic synthesis building block for creating diverse and complex molecular architectures.
Material Science Innovation
Its electronic properties make it a prime candidate for OLED material synthesis and the creation of novel liquid crystal applications, pushing the boundaries of advanced materials synthesis.
Key Applications
Pharmaceutical Development
Crucial for kinase inhibitor development and CNS drug synthesis, this compound is a cornerstone in creating next-generation therapeutics.
Agrochemical Research
Its role in agrochemical research aids in developing new compounds with enhanced stability and efficacy, contributing to agrochemical research & development.
Advanced Material Synthesis
Integral to the creation of OLED material synthesis and liquid crystals, it drives innovation in the field of advanced materials synthesis.
Fine Chemical Synthesis
As a versatile organic synthesis building block, it supports the development of a wide array of fine chemicals for various industries.