Unlocking the Potential of 4-Methylbenzotrifluoride
Explore the essential properties, synthesis, and diverse applications of this vital organic intermediate.
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4-Methylbenzotrifluoride
4-Methylbenzotrifluoride, also known by its CAS number 6140-17-6, is a crucial organic compound widely recognized as an intermediate in complex organic synthesis. Its molecular formula, C8H7F3, and molecular weight of 160.13600, underscore its precise chemical identity. This compound is valued for its unique trifluoromethyl group attached to a methyl-substituted benzene ring, which imparts distinctive physical and chemical characteristics essential for various industrial applications.
- Key Organic Synthesis Intermediate: As a primary building block, 4-methylbenzotrifluoride plays a pivotal role in constructing more intricate molecules, making it indispensable in the fine chemical sector.
- Distinctive Physical and Chemical Properties: With a density of 1.144 g/mL at 25°C and a boiling point of 129°C, it exhibits stability while remaining reactive, a critical balance for chemical processes.
- High Purity for Industrial Processes: Typically supplied with a purity of ≥98.0%, it meets the stringent quality requirements of industries relying on consistent and reliable chemical inputs.
- Versatile Building Block for Complex Molecules: The compound's structure allows it to participate in a range of chemical reactions, facilitating the synthesis of pharmaceuticals, agrochemicals, and specialty chemicals.
Key Advantages Offered
Enhanced Reactivity
The trifluoromethyl group contributes significant electron-withdrawing capabilities, enabling specific reactions crucial for targeted synthesis, thus improving the efficacy of agrochemicals.
Process Efficiency
Its well-defined physical properties, such as a manageable boiling point, facilitate efficient separation and purification processes in industrial settings, contributing to cost-effectiveness.
Broad Application Scope
As a versatile intermediate, it serves as a foundational component in the creation of pharmaceuticals and advanced materials, driving innovation across multiple sectors.
Key Applications
Organic Synthesis
Crucial for constructing complex organic molecules, this intermediate is sought after by manufacturers seeking reliable organic synthesis intermediates in China.
Pharmaceutical Development
Acts as a precursor for active pharmaceutical ingredients (APIs) that require fluorinated aromatic structures, enhancing metabolic stability.
Agrochemical Production
Contributes to the development of pesticides and herbicides with improved efficacy, supporting advancements in crop protection.
Specialty Chemicals
Its unique properties make it valuable in the creation of high-performance materials and other specialized chemical products.