In searching of optimum electrospray ionization using both spray image and electric current measurement

Electrospray image and spray electric current measurement were used to experimentally characterize the optimum operating condition of the electrospray ionization process under different operating conditions, including electrospray flow rate (Q), solution electric conductivity (k) and the organic solvent content in the sample solution (Ro). It was first observed that a special cone-jet mode electrospray with extremely high stability could be obtained when the electrospray voltage was operated in a specific range (the optimum voltage range). In this mode, the spray current remains independent of spray voltage and the angle of electrospray (the optimum spray angle) was much larger than the ones in other modes of electrospray. The experimental results also showed that the optimum voltage range was dependent on multiple factors. The average value of the optimum voltage range (the optimum voltage) increased slightly as Q was increased and decreased significantly as Ro was increased. In addition, the optimum voltage would increase initially with the increase of k and become essentially independent of k at a sufficiently high solution electric conductivity. In contrast to a rather complicated parametric dependence of the optimum voltage range, the optimum spray angle was found to only depend on Q. It would increase initially as the increase of Q and remain to be constant when Q was higher than a specific value. The experimental results in this study allow one to maintain an optimum electrospray ionization under different operating conditions as required by the actual method of mass spectrometry analysis.

Automated summary

Electrospray image and spray electric current measurement were used to characterize the optimum operating condition of the electrospray ionization process. It was found that a special cone-jet mode electrospray with high stability could be obtained by operating the electrospray voltage in a specific range. The experimental results also showed that the optimum voltage range was dependent on multiple factors, such as electrospray flow rate, solution electric conductivity, and organic solvent content.