1-Fluoronaphthalene CAS 321-38-0: Properties, Applications in Photoresists & Electronics Manufacturing
Discover the critical role of 1-Fluoronaphthalene in advanced electronics and pharmaceutical synthesis.
Get a Quote & SampleProduct Core Value
1-Fluoronaphthalene
1-Fluoronaphthalene is a crucial chemical compound identified by CAS number 321-38-0. Its unique properties make it highly valuable in specialized industrial applications, particularly within the electronics sector as a component for enhancing photoresist performance, and in the synthesis of pharmaceutical intermediates. This compound plays a vital role in enabling advanced manufacturing processes.
- Explore the 1-fluoronaphthalene applications in advanced lithography, where its ability to improve the absorption coefficient of photoresists is critical for miniaturization and efficiency in microelectronics.
- Understand the CAS 321-38-0 chemical properties, including its molecular formula C10H7F and molecular weight of 146.17, which define its behavior and utility in chemical reactions.
- Learn about the role of fluoronaphthalene in photoresists for EUV lithography, a cutting-edge technology that requires materials with enhanced light absorption characteristics for high-resolution patterning.
- Investigate the use of 1-fluoronaphthalene pharmaceutical intermediate in the synthesis of active pharmaceutical ingredients, highlighting its importance in drug development and manufacturing.
Advantages of Using 1-Fluoronaphthalene
Enhanced Absorption for Lithography
Leveraging fluoronaphthalene's absorption coefficient, manufacturers can achieve superior performance in photoresists, crucial for advanced semiconductor fabrication and microelectronics. This property directly translates to improved resolution and process efficiency.
Versatile Chemical Intermediate
As a key 1-fluoronaphthalene pharmaceutical intermediate, this compound is instrumental in the synthesis of complex molecules, contributing to the development and production of vital medicines and therapies.
Accurate Chemical Analysis
The availability of robust analytical methods such as 1-fluoronaphthalene HPLC analysis ensures product purity and consistency, which are paramount for applications in high-tech industries and regulated sectors like pharmaceuticals.
Key Applications
Advanced Photolithography
In the realm of microelectronics, 1-Fluoronaphthalene is vital for developing next-generation photoresists. Its role in enhancing light absorption, especially for EUV lithography, is a testament to its importance in achieving finer feature sizes and higher device performance.
Pharmaceutical Synthesis
The utility of 1-Fluoronaphthalene extends to the pharmaceutical industry, where it serves as a critical building block for synthesizing active pharmaceutical ingredients (APIs). Its inclusion in synthetic pathways contributes to the creation of essential medicines.
Electronic Chemicals
As a specialized compound within electronic chemicals, 1-Fluoronaphthalene contributes to the formulation of materials used in semiconductor manufacturing and other high-tech electronic applications, ensuring the reliability and advancement of electronic devices.
Material Science Research
Researchers explore the unique properties of 1-fluoronaphthalene synthesis and its derivatives for novel material development, pushing the boundaries of innovation in chemical and physical sciences.