Tert-Butyl N-hydroxycarbamate (CAS 36016-38-3), also recognized as N-Boc-hydroxylamine, stands out as a versatile and indispensable reagent in the realm of organic synthesis and chemical research. Its unique molecular structure grants it specific reactivity, making it a cornerstone for chemists developing novel compounds, particularly in the pharmaceutical and fine chemical sectors. Understanding its chemical properties and applications is key for R&D scientists looking to procure this valuable material.

Synthesis and Reactivity Profile

The synthesis of tert-Butyl N-hydroxycarbamate typically involves the reaction of hydroxylamine hydrochloride with di-tert-butyl dicarbonate in the presence of a base. This process yields a compound characterized by a Boc (tert-butoxycarbonyl) protecting group attached to the nitrogen atom of hydroxylamine. This Boc group offers stability and controlled reactivity, which is highly desirable in complex synthetic routes. The compound readily participates in various reactions, including nucleophilic additions and cyclizations.

Key Applications in Chemical Synthesis

The utility of tert-Butyl N-hydroxycarbamate spans several critical areas:

  • Aziridine Synthesis: A prominent application is in the preparation of aziridines, three-membered heterocyclic compounds containing nitrogen. This is achieved through the cycloaddition of azides with nitroso Diels-Alder adducts, where N-Boc-hydroxylamine acts as a crucial precursor or reagent. Aziridines are foundational in medicinal chemistry for synthesizing biologically active molecules.
  • As a Protecting Group: The Boc group serves as an effective protecting group for the hydroxylamine moiety. This protection is vital when other functional groups within a molecule need to undergo specific reactions without interfering with the hydroxylamine part. This selective protection is a hallmark of efficient synthetic strategies.
  • Synthesis of Hydroxylamine Derivatives: It is employed in the synthesis of various hydroxylamine derivatives, such as t-butyl-N-(acyloxy)carbamates and N,O-diacylated N-hydroxyarylsulfonamides. These derivatives often find applications as intermediates in the pharmaceutical industry or as specialty chemicals.
  • Drug Discovery and Development: Researchers frequently utilize tert-Butyl N-hydroxycarbamate in the synthesis of novel drug candidates. Its incorporation into molecular structures can influence pharmacokinetic properties, such as bioavailability, or serve as a key fragment in pharmacologically active compounds. If you are looking to buy this intermediate for your R&D, consider partnering with a reliable supplier for consistent quality.

For organizations seeking to buy tert-Butyl N-hydroxycarbamate, focusing on suppliers who can guarantee high purity and provide comprehensive technical documentation ensures that the material’s full synthetic potential can be realized. As a trusted manufacturer, we are dedicated to providing this essential chemical to support your innovative research.