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Specifications
| Appearance: | White crystalline powder, almost odorless, Cools the entire mouth and skin |
| Odor: | Faint, minty, extremely cooling |
| Assay by GLC: | 99.5% min |
| MP: | 62°C to 64°C |
| Heavy Metal: | 3 mg/Kg max |
| As: | 1.5 mg/Kg max |
| Acid Value: | 1 mgKOH/g max |
| Water: | 0.1% max |
Applications
1. Pharmaceutical Intermediate
May be used as an intermediate or building block in the synthesis of pharmaceuticals, particularly in the design of compounds with amide linkages.
Provides structural complexity for medicinal chemistry applications.
2. Agrochemical Synthesis
Potentially utilized in the production of pesticides, herbicides, or fungicides where amide-containing moieties are common.
Helps introduce lipophilic and steric properties to active molecules.
3. Organic Synthesis
Acts as a synthetic intermediate in preparing more complex molecules for research or industrial applications.
The amide group allows for further chemical modifications such as hydrolysis, amidation, or coupling reactions.
4. Material Science
May serve as a precursor in the development of specialty chemicals or polymers requiring amide-containing monomers or additives.
Benefits
Structural Versatility: The combination of methyl and isopropyl substitutions provides steric and lipophilic properties.
Reactivity of Amide Group: Enables various chemical transformations and functionalizations.
Potential as an Intermediate: Supports complex molecule synthesis in pharmaceuticals and agrochemicals.
Compatibility: Likely compatible with various solvents and reagents for diverse applications.
Conclusion
N,2,3-Trimethyl-2-isopropylbutamide (CAS 51115-67-4) is a multifunctional amide compound that serves as a valuable intermediate in pharmaceutical and agrochemical synthesis. Its unique substitution pattern confers useful chemical properties for advanced organic synthesis and potential material science applications.
