Investigation of matrix effects in inductively coupled plasma-atomic emission spectroscopy using laser ablation and solution nebulization - effect of second ionization potential
| Title | Investigation of matrix effects in inductively coupled plasma-atomic emission spectroscopy using laser ablation and solution nebulization - effect of second ionization potential |
| Publication Type | Journal Article |
| Year of Publication | 2001 |
| Authors | Chan, Chee Yuen(George), Wing-Tat Chan, Xianglei Mao, and Richard E. Russo |
| Secondary Title | Spectrochimica Acta Part B-Atomic Spectroscopy |
| Volume | 56 |
| Pagination | 77-92 |
| Publication Language | eng |
| Accession Number | 130 |
| Keywords | ablation, argon, argon plasma, c, ca, calcium, carrier gas, charge-exchange, diagnostics, e, easily ionizable elements, element, elements, emission, emission spectrometry, emission spectroscopy, emission-spectrometry, emission-spectroscopy, england, excitation, ga, gas, helium, icp, inductively coupled plasma, inductively coupled plasma atomic emission spectroscopy, inductively-coupled-plasma, intensities, intensity, interference, interference mechanism, interferences, ion, ionization, ions, laser, laser ablation, laser-ablation, lecture, line, line-intensities, magnesium, matrices, matrix, matrix effect, matrix effects, mechanism, mixed-gas plasma, mixture, nebulization, plasma, plasma diagnostics, power, ratio, ratios, sample, sample introduction, science, solution, solution nebulization, spectrometry, spectroscopy, time, usa, zinc |
| Abstract | Plasma-related non-spectroscopic matrix effects of 31 elements in inductively coupled plasma (ICP)-atomic emission spectrometry were investigated using both laser ablation and solution nebulization as sample introduction techniques. Matrix effects were studied by monitoring the excitation conditions of the plasma using the ionic to atomic spectral line intensity ratios of zinc and magnesium. A new kind of matrix interference was found in the ICP that appears to be related to matrices with elements of low second ionization potential. The matrix effects do not correlate with the first ionization potential of the element. Only those matrix elements with low second ionization potential showed severe matrix effects. Increasing the forward power of the ICP or replacing the carrier gas with a 50%/50% argon-helium mixture did not significantly reduce this matrix effect. However, using 100% helium as the carrier gas greatly reduced the extent of this matrix effect, suggesting that argon is involved in the interference mechanism. The interference mechanism may involve interactions between doubly-charged matrix ions and argon species. (C) 2001 Elsevier Science B.V. All rights reserved |
| Notes | LBNL-47088 NOT IN FILE |
| LBNL Report Number | LBNL-47088 |
| Citation Key | 14228 |
