Laser-generated aerosols in laser ablation for inductively coupled plasma spectrometry

This paper is a summary of the current knowledge of laser-generated aerosols under atmospheric conditions. It is restricted to typical laser sampling conditions as they are used in LA-ICP spectrometry. Published experimental evidence and proposed models are reviewed and critical summarized. The collected works show that a certain agreement exists that independently of the sample two size fractions with different chemical composition are found. The mechanism generating the different particle fractions are currently not clear. Possible sources of particle generation are described and critically reviewed. Fundamentally three distinguishable modes (gas, liquid, solid) can be described that can appear: gas-to-particle conversion, hydrodynamic sputtering, mechanical spallation/exfoliation. More recently explosive boiling as a mechanism of liquid expulsion has been discussed as a further possible source under certain conditions. Particle conditioning during transport is discussed as a source for agglomeration. The correlation between size distribution and laser parameters is discussed.