Radionuclide determination in environmental samples by inductively coupled plasma mass spectrometry

摘要

The determination of naturally occurring and anthropogenic radionuclides in the environment by inductively coupled plasma mass spectrometry has gained recognition over the last fifteen years,relative to radiometric techniques,as the result of improvement in instrumental performance,sample introduction equipment,and sample preparation.With the increase in instrumental sensitivity,it is now possible to measure ultratrace levels (fg range) of many radioisotopes,including those with half-lives between 1 and 1000 years,without requiring very complex sample pre-concentration schemes.However,the identification and quantification of radioisotopes in environmental matrices is still hampered by a variety of analytical issues such as spectral (both atomic and molecular ions) and non-spectral (matrix effect) interferences and instrumental limitations (e.g.,abundance sensitivity).The scope of this review is to highlight recent analytical progress and issues associated with the determination of radionuclides by inductively coupled plasma mass spectrometry.The impact of interferences,instrumental limitations (e.g.,degree of ionization,abundance sensitivity,detection limits) and low sample-to-plasma transfer efficiency on the measurement of radionuclides by inductively coupled plasma mass spectrometry will be described.Solutions that overcome these issues will be discussed,highlighting their pros and cons and assessing their impact on the measurement of environmental radioactivity.Among the solutions proposed,mass and chemical resolution through the use of sector-field instruments and chemical reactions/collisions in a pressurized cell,respectively,will be described.Other methods,such as unique sample introduction equipment (e.g.,laser ablation,electrothermal vaporisation,high efficiency nebulization) and instrumental modifications/ optimizations (e.g.,instrumental vacuum,radiofrequency power,guard electrode) that improve sensitivity and performance will also be examined.