In sonic spray ionization technique, a solution from a fused-silica ca
pillary is sprayed with a sonic gas flow coaxial to the capillary. The
current for the ions produced and for the charged droplets is found t
o be dramatically enhanced when a voltage is applied to a surrounding
metal piece, which is isolated from the solution by the fused-silica c
apillary. This can be ascribed to the induced concentration difference
between positive and negative ions in the solution near the surface.
Furthermore, multiply-protonated molecules produced in this way from p
rotein solutions are analyzed with a quadrupole mass spectrometer. The
ion intensity shows a strong dependence on the voltage but the diamet
er of the droplet produced by the spray is likely to be independent of
the voltage. Thus, we conclude that the charge density of the droplet
is regulated by the voltage.