Laser-Ablation Sampling with Inductively-Coupled Plasma-Atomic Emission-Spectrometry for the Analysis of Prototypical Glasses
| Title | Laser-Ablation Sampling with Inductively-Coupled Plasma-Atomic Emission-Spectrometry for the Analysis of Prototypical Glasses |
| Publication Type | Journal Article |
| Year of Publication | 1995 |
| Authors | Russo, Richard E., Xianglei Mao, Wing-Tat Chan, M. F. Bryant, and W. F. Kinard |
| Secondary Title | Journal of Analytical Atomic Spectrometry |
| Volume | 10 |
| Pagination | 295-301 |
| Publication Language | eng |
| Accession Number | 61 |
| Keywords | 248 nm, 266 nm, ablation, ablation rate, analysis, atomic emission, atomic emission spectrometry, atomic-emission, atomic-emission-spectrometry, composition, direct solid sampling, dissolution, e, element, emission, emission spectrometry, emission-spectrometry, england, excimer, excimer laser, excimer-laser, glass, glass samples, glasses, inductively coupled plasma, inductively coupled plasma atomic emission spectrometry, inductively-coupled-plasma, krf, krf excimer laser, laser, laser ablation, laser ablation sampling, laser sampling, laser-ablation, mass, mass-spectrometry, matrix, nanosecond, nd:yag, nd:yag laser, nm, picosecond, plasma, precision, preferential vaporization, products, quantitative analysis, quantitative-analysis, ratio, ratios, repetition rate, river, sample, samples, sampling, science, silicon, single, spectrometry, standard, technology, time, vaporization |
| Abstract | Laser ablation sampling is Presented as an alternative to dissolution procedures for elemental analyses of prototypical glasses using inductively coupled plasma atomic emission spectrometry. These glass samples were prototypes of vitrified waste products from the Savannah River Technology Center. The samples were not translated or rotated during laser sampling, but were repetitively sampled at a single spot using a KrF excimer laser with a 10 Hz repetition rate. The time-dependent mass ablation rate was measured and is discussed. Silicon, the major element in the matrix, was used as an internal standard, and excellent precision (s(r) = 1-3%) was obtained. Quantitative analysis was demonstrated using known prototypical glass compositions.; Preferential vaporization was investigated by comparing measured elemental ratios using a nanosecond excimer laser (lambda = 248 nm) and a picosecond Nd:YAG laser (fourth harmonic, lambda = 266 nm) |
| Notes | NOT IN FILE |
| Citation Key | 14471 |
