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Destabilized Carbocations Caged in Water Microdroplets: Isolation and Real-Time Detection of <i>α-</i>Carbonyl Cation Intermediates

Anubhav Kumar, Anubhav Kumar, Supratim Mondal, Sandeep, P. Venugopalan, Anil Kumar, Anil Kumar, Shibdas Banerjee

2022Journal of the American Chemical Society55 citationsDOI

Abstract

Over the last 50 years, proposals of α-carbonyl cation intermediates have been driven by chemical intuition and indirect evidence. Recently, wide interest in α-carbonyl cation chemistry has opened new gates to prepare α-functionalized carbonyl compounds. Though these intrinsically unstable carbocations are formed under forcing conditions (e.g., in a strong acid medium), their fleeting existence prohibits direct observation or spectroscopic measurement. We report that high-speed aqueous microdroplets can directly capture α-carbonyl cation intermediates from various reactions (Friedel-Crafts arylation, deoxygenation, and azidation) upon bombarding with the corresponding reaction aliquots. The α-carbonyl cations caged in water droplets are then desorbed to the gas phase, allowing their successful measurement by mass spectrometry. This has also enabled us to simultaneously monitor the relative abundance of the associated precursor, α-carbonyl cation intermediate, and product during the progress of the reaction.

Topics & Concepts

ChemistryCarbocationIsolation (microbiology)PhotochemistryMicrobiologyBiologyMass Spectrometry Techniques and ApplicationsAnalytical Chemistry and ChromatographySupramolecular Chemistry and Complexes
Destabilized Carbocations Caged in Water Microdroplets: Isolation and Real-Time Detection of <i>α-</i>Carbonyl Cation Intermediates | Litcius