Direct C(sp 3 )-N Bond Formation between Toluene and Amine in Water Microdroplets.

Unlike the inertness of bulk water, water microdroplets exhibit some remarkable reactivities. We report that water microdroplets can directly produce stable C 7 H 7 + cations (a combination of benzylic and tropylium cations) from toluene and other substrates at room temperature with a positive voltage (+4 kV) applied to the droplet spray source. The C 7 H 7 + cation and the benzyl radical (C 6 H 5 CH 2 ·) are both generated via hydroxyl radicals at the water-gas interface of the microdroplets. The C 7 H 7 + signal is observed directly by mass spectrometry. Dissolved amines (primary, secondary, and tertiary) in the microdroplets can react with both C 7 H 7 + and C 6 H 5 CH 2 · to form the corresponding alkyl C(sp 3 )-N coupling products in one step, which cannot be achieved in bulk water or other solvents. The products were identified using tandem mass spectrometry (MS 2 ) and 1 H NMR spectroscopy. Notably, the direct C(sp 3 )-N bond formation products were obtained in the absence of a catalyst. In the presence of a radical scavenger, the mass spectra of the C(sp 3 )-N coupling products are strongly suppressed, which supports the hypothesis that this reaction is driven by hydroxyl radicals generated in the water microdroplets. Taken together, these results show that water microdroplets provide a new method for direct one-step C(sp 3 )-N bond formation without the need for a metal catalyst.