Abstract: A method for milling of a workpiece of inert material by nanodroplet beam sputtering includes the steps of providing aliquid; electrohydrodynamically atomizing the liquid to form charged nanodroplets; and directing the atomized charged nanodroplets onto the workpiece to selectively remove material. The method is used for broad-beam milling the workpiece of inert material, for precision micromachining and/or for three dimensionally profiling organic samples via secondary ion mass spectrometry. The liquid is electrosprayed in a cone-jet mode in a vacuum and average nanodroplet diameter, nanodroplet velocity, and molecular energy of the nanodroplets is adjusted by changing liquid flow rate and the acceleration voltage applied to the ionic liquid as it is atomized. Apparatus for performing the method are also included embodiments.

Abstract: A method for milling of a workpiece of inert material by nanodroplet beam sputtering includes the steps of providing a liquid; electrohydrodynamically atomizing the liquid to form charged nanodroplets; and directing the atomized charged nanodroplets onto the workpiece to selectively remove material. The method is used for broad-beam milling the workpiece of inert material, for precision micromachining and/or for three dimensionally profiling organic samples via secondary ion mass spectrometry. The liquid is electrosprayed in a cone-jet mode in a vacuum and average nanodroplet diameter, nanodroplet velocity, and molecular energy of the nanodroplets is adjusted by changing liquid flow rate and the acceleration voltage applied to the ionic liquid as it is atomized. Apparatus for performing the method are also included embodiments.