4-Methyl-1-acetoxycalix[6]arene: Advanced Chemical for Material Science and Pharmaceuticals
Discover the multifaceted applications of 4-Methyl-1-acetoxycalix[6]arene (CAS: 141137-71-5), a key compound in nanolithography, pharmaceutical synthesis, and organic chemistry. Explore its unique properties and potential.
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4-Methyl-1-acetoxycalix[6]arene
As a leading supplier in China, NINGBO INNO PHARMCHEM CO.,LTD. offers high-quality 4-Methyl-1-acetoxycalix[6]arene. This compound, known for its utility in advanced applications, serves as a crucial pharmaceutical intermediate and is vital for processes like nanolithography and the fabrication of magnetic particles. Its well-defined structure and purity make it an indispensable component in complex organic synthesis and host-guest chemistry.
- Discover the detailed applications of calixarene molecular glass resist, a key use case for this advanced chemical.
- Explore the 4-methyl-1-acetoxycalix[6]arene synthesis pathways and understand its production from reliable manufacturers in China.
- Leverage the benefits of CAS 141137-71-5 applications in fields ranging from material science to pharmaceutical development.
- Investigate the use of this calixarene derivative in organic synthesis, where its unique properties facilitate complex molecular constructions.
Key Advantages Offered
Versatile Chemical Intermediate
This compound serves as a versatile pharmaceutical intermediate, enabling the development of new therapeutic agents and complex organic synthesis.
Advanced Lithography Applications
Its role in nanolithography, particularly with calixarene molecular glass resists, positions it as a critical material for next-generation electronic devices.
Precision Particle Fabrication
The precise control offered in magnetic particle fabrication highlights its importance in specialized material science applications.
Key Applications
Pharmaceutical Synthesis
As a vital pharmaceutical intermediate, it supports the creation of complex drug molecules and APIs, contributing to advancements in healthcare.
Nanolithography
Its application in nanolithography, utilizing calixarene molecular glass resists, is crucial for the development of advanced semiconductor and microelectronic components.
Material Science
Used in the fabrication of nanometer magnetic particles, this chemical enables the creation of novel materials with tailored magnetic properties.
Organic Synthesis
It serves as a fundamental building block in organic synthesis, allowing chemists to construct intricate molecular architectures for research and industry.