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Journal articles on the topic 'ICP-AES analysis'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Nikolaeva, I. V., A. A. Kravchenko, S. V. Palessky, S. V. Nechepurenko, and D. V. Semenova. "ICP-MS AND ICP-AES ANALYSIS OF PLANT REFERENCE MATERIALS." Industrial laboratory. Diagnostics of materials 85, no. 6 (2019): 11–24. http://dx.doi.org/10.26896/1028-6861-2019-85-6-11-24.

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Two methods — ICP-MS and ICP-AES are used for certification of the new reference material — needles of Siberian pine (NSP-1). Techniques of the analysis include decomposition of plant samples in two different ways: acid digestion in a microwave system MARS-5 and lithium metaborate fusion followed by ICP-MS and ICP-AES analysis of the solutions. Simultaneous determinations of all the elements were carried out in low, medium and high resolution using SF-mass-spectrometer ELEMENT and atomic-emission spectrometer IRIS Advantage with external calibrations and internal standards (In — ICP-MS, Sc —IC
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2

Hussain, Raja Azadar, Farida Yasmin, Hamid Nawaz, and Amin Badshah. "SEM-EDS and ICP-AES Analysis of Common Food Additives." Journal of the Korean Chemical Society 54, no. 5 (2010): 551–55. http://dx.doi.org/10.5012/jkcs.2010.54.5.551.

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3

Karimova, T. A., G. L. Buchbinder, N. Romanov, and S. V. Kachin. "Analysis of iron ores by ICP-AES." Industrial laboratory. Diagnostics of materials 87, no. 6 (2021): 20–24. http://dx.doi.org/10.26896/1028-6861-2021-87-6-20-24.

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A method for the analysis of iron ore raw materials (IORM) using inductively coupled plasma atomic- emission spectrometry (ICP-AES) and Concentration Ratio Calibration (CRC) has been developed. However, the general eq. for calibration by concentration ratios used in analysis of metals and alloys was modified with allowance for the IORM characteristics: all the elements, except sulfur, were represented as oxides, iron was represented as FeO and Fe2O3, and the total of 100% included ignition losses (LOI). A variant of solving the equation is proposed, which allowed us to relate the relative conc
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4

Евдокимов, И. И., В. Г. Пименов, and Д. А. Фадеева. "ICP-AES analysis of high-purity arsenic." Аналитика и контроль 19, no. 1 (2015): 13–20. http://dx.doi.org/10.15826/analitika.2015.19.1.006.

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5

Shaverina, A. V., A. R. Tsygankova, I. R. Shelpakova, and A. I. Saprykin. "ICP-AES analysis of high-purity silicon." Inorganic Materials 49, no. 14 (2013): 1283–87. http://dx.doi.org/10.1134/s0020168513140082.

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6

Suherman, Suherman, Ghilma Milawonso, Kinichi Morita, Hitoshi Mizuguchi, and Yuji Oki. "Statistical Evaluation of Conventional and Portable Instrumentations for Cr(VI) Analysis on Chemistry Laboratory Waste Water." Key Engineering Materials 840 (April 2020): 406–11. http://dx.doi.org/10.4028/www.scientific.net/kem.840.406.

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The development of portable instrumentation for heavy metals analysis was increased rapidly. However, the quality of data from portable methods has so far been questioned when compared to conventional instrumentation. In this research, a comparative study of conventional and portable instrumentations for Cr(VI) analysis on liquid waste water of Chemistry Laboratory at Universitas Gadjah Mada (UGM) was conducted. This research started with validation and statistical evaluation of instrumentation methods which are UV-Visible spectrophotometer, portable spectrophotometer (PiCOEXPLORER) and Induct
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7

NISHIKAWA, Masataka, Reiko KUMATA, and Miyoko TAKANO. "Particularities of ICP-AES analysis in routine work." Journal of Environmental Chemistry 3, no. 4 (1993): 789–96. http://dx.doi.org/10.5985/jec.3.789.

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8

Tsygankova, A. R., G. V. Makashova, I. R. Shelpakova, and A. I. Saprykin. "ICP-AES analysis of high purity bismuth oxide." Inorganic Materials 50, no. 14 (2014): 1397–401. http://dx.doi.org/10.1134/s0020168514140131.

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9

Hwang, J. D., and W. J. Wang. "Application of ICP-AES to Analysis of Solutions." Applied Spectroscopy Reviews 30, no. 4 (1995): 231–350. http://dx.doi.org/10.1080/05704929508000911.

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10

IMAI, Noboru. "Multielement analysis of stream sediment by ICP-AES." Bunseki kagaku 36, no. 4 (1987): T41—T45. http://dx.doi.org/10.2116/bunsekikagaku.36.4_t41.

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11

McLaren, J. W., and S. S. Berman. "Wavelength selection for trace analysis by ICP-AES." Spectrochimica Acta Part B: Atomic Spectroscopy 40, no. 1-2 (1985): 217–25. http://dx.doi.org/10.1016/0584-8547(85)80024-0.

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12

Yamasaki, S., and Y. Tamura. "Total analysis of soils by ICP‐AES and ICP‐MS (Mass spectrometry)." Communications in Soil Science and Plant Analysis 21, no. 17-18 (1990): 2017–28. http://dx.doi.org/10.1080/00103629009368356.

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13

Faske, Arthur J., Kimberley R. Snable, Andrew W. Boorn, and Richard F. Browner. "Microliter Sample Introduction for ICP-AES." Applied Spectroscopy 39, no. 3 (1985): 542–45. http://dx.doi.org/10.1366/0003702854248764.

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A simple Flow Injection/Inductively Coupled Plasma-Atomic Emission Spectrometry system is described. The analytical performance, in terms of linearity, precision, and detection limits, was investigated for both aqueous and organic solvents. Acceptable detection limits were obtained with the use of approximately one-hundreth of the minimum sample volume required for continuous aspiration. Some deterioration of detection limits, however, was observed. The suitability of this system to biological samples was demonstrated by the analysis of iron- and cobalt-rubredoxins and National Bureau of Stand
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14

ALI, M. W., S. C. ZOLTAI, and F. G. RADFORD. "A COMPARISON OF DRY AND WET ASHING METHODS FOR THE ELEMENTAL ANALYSIS OF PEAT." Canadian Journal of Soil Science 68, no. 2 (1988): 443–47. http://dx.doi.org/10.4141/cjss88-041.

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Peat samples were digested by dry and wet ashing for analysis by inductively coupled plasma spectrometry (ICP-AES). Results were comparable for Ca, Mg, Fe, K, Mn and P. Values for Zn, S, Cu, Ti, Na and Pb were consistently higher by wet ashing. Dry ashing gave much higher values for Al and Ni than wet ashing. Key words: Elements, wet ashing, dry ashing, peat, ICP-AES
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15

Lin, Kai Li, Zheng Wang, Jiang Chang, Hui Jun Zou, and Jian Xi Lu. "Fast and Simultaneous Determination of Calcium and Phosphorous in Calcium Phosphate Based Bioceramics by ICP-AES." Key Engineering Materials 361-363 (November 2007): 143–46. http://dx.doi.org/10.4028/www.scientific.net/kem.361-363.143.

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Calcium is generally determined by EDTA titration after separation of phosphate radicals, and the phosphorus is determined by weigh method. This traditional analytical process is time consuming and unfavourable for quality controlling. In contrast, the ICP-AES is simple and fast, and can simultaneously determine multielements. In this paper, the ICP-AES method was used to simultaneously determine calcium and phosphorous in calcium phosphate based bioceramics, and wavelengths of 317.933 nm and 213.618 nm were selected for the measuring of the calcium and phosphorus, respectively. The results ob
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16

Garbarino, J. R., B. E. Jones, G. P. Stein, W. T. Belser, and H. E. Taylor. "Statistical Evaluation of an Inductively Coupled Plasma Atomic Emission Spectrometric Method for Routine Water Quality Testing." Applied Spectroscopy 39, no. 3 (1985): 535–41. http://dx.doi.org/10.1366/0003702854248458.

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In an interlaboratory test, inductively coupled plasma atomic emission spectrometry (ICP-AES) was compared with flame atomic absorption spectrometry and molecular absorption spectrophotometry for the determination of 17 major and trace elements in 100 filtered natural water samples. No unacceptable biases were detected. The analysis precision of ICP-AES was found to be equal to or better than alternative methods. Known-addition recovery experiments demonstrated that the ICP-AES determinations are accurate to between ±2 and ±10 percent; four-fifths of the tests yielded average recoveries of 95–
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17

AKIYOSHI, Takanori, Akiko SAKASHITA, Toshiya MAEKAWA, Yohichi ISHIBASHI, Satoshi KINOSHIRO, and Tadashi MOCHIZUKI. "Application of Laser Ablation ICP-AES to Steel Analysis." Tetsu-to-Hagane 83, no. 1 (1997): 42–47. http://dx.doi.org/10.2355/tetsutohagane1955.83.1_42.

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18

Paama, Lilli, Eed Pärnoja, and Paavo Perämäki. "Trace element analysis of superconductor oxides by ICP-AES." J. Anal. At. Spectrom. 15, no. 5 (2000): 571–72. http://dx.doi.org/10.1039/b001122n.

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19

Gong, Kui, Xiao Yun Sun, Ming Xia, et al. "Analysis of Trace Elements in Roughage by ICP-AES." Applied Mechanics and Materials 275-277 (January 2013): 2407–10. http://dx.doi.org/10.4028/www.scientific.net/amm.275-277.2407.

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In roughage, ten trace elements as Pb, Se, Mn, Se, Zn,Sb, Hg, Sn, Ca, Mg were detected by ICP-AES. Method of high pressure nitrifying pot is also selected to nitrify roughage. The relative standard deviation of measurement was less than 2.60%. The results accord with the demands of analysis trace elements. The experiment proved that roughage contained rich useful trace elements, which was green food with high nutrition.
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20

Khomichenko, N. N., A. V. Shaverina, A. R. Tsygankova, and A. I. Saprykin. "ICP-AES analysis of silicon, germanium, and their oxides." Inorganic Materials 52, no. 14 (2016): 1405–12. http://dx.doi.org/10.1134/s0020168516140077.

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21

Z�ray, Gyula, Franz Leis, Tibor K�ntor, J�rgen Hassler, and G�nther T�lg. "Analysis of silicon carbide powder by ETV-ICP-AES." Fresenius' Journal of Analytical Chemistry 346, no. 12 (1993): 1042–46. http://dx.doi.org/10.1007/bf00323713.

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22

Rouchaud, J. C., N. Boisseau, and M. Fedoroff. "Multielement analysis of aluminium by NAA and ICP/AES." Journal of Radioanalytical and Nuclear Chemistry Letters 175, no. 1 (1993): 25–31. http://dx.doi.org/10.1007/bf02168364.

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23

TOYODA, Hideaki, Hiroshi UCHIDA, and Jun-ichi TAKAHASHI. "Simultaneous multielement analysis of human hair by ICP-AES." Bunseki kagaku 35, no. 9 (1986): T80—T85. http://dx.doi.org/10.2116/bunsekikagaku.35.9_t80.

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24

Kaunova, A. A., V. I. Petrov, T. G. Tsyupko, Z. A. Temerdashev, V. V. Perekotii, and A. A. Luk’yanov. "Identification of wine provenance by ICP-AES multielement analysis." Journal of Analytical Chemistry 68, no. 9 (2013): 831–36. http://dx.doi.org/10.1134/s1061934813090050.

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25

Steffan, I., and G. Vujicic. "ICP-AES analysis of nonconductive materials after spark ablation." Spectrochimica Acta Part B: Atomic Spectroscopy 47, no. 1 (1992): 61–70. http://dx.doi.org/10.1016/0584-8547(92)80006-3.

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26

Baghdadi, S., M. Crozet, S. Gracia, J. L. Dautheribes, C. Rivier, and S. Picart. "The importance of post-analysis data processing in ICP-AES: calibration adjustment and multi-line approaches." Journal of Analytical Atomic Spectrometry 33, no. 11 (2018): 1903–9. http://dx.doi.org/10.1039/c8ja00214b.

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27

Mahan, Cynthia, Sandra Bonchin, Deborah Figg, Daniel Gerth, and Concha Collier. "Chromatographic extraction of plutonium and inorganic impurity analysis using ICP-MS and ICP-AES." Journal of Analytical Atomic Spectrometry 15, no. 8 (2000): 929–35. http://dx.doi.org/10.1039/b003558k.

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28

Shirai, Naoki, Meiramkhan Toktaganov, Hiroki Takahashi, Yuta Yokozuka, Shun Sekimoto, and Mitsuru Ebihara. "Multielemental analysis of Korean geological reference samples by INAA, ICP-AES and ICP-MS." Journal of Radioanalytical and Nuclear Chemistry 303, no. 2 (2014): 1367–74. http://dx.doi.org/10.1007/s10967-014-3653-5.

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29

Parry, Huw G. M., Les Ebdon, J. Richard Clinch, et al. "Coal analysis by analytical atomic spectrometry (ICP-AES and ICP-MS) without sample dissolution." Analytical Proceedings 25, no. 3 (1988): 69. http://dx.doi.org/10.1039/ap9882500069.

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30

Gaudry, A., and R. Delmas. "Multielement analysis of concrete from nuclear reactors by INAA, ICP-MS and ICP-AES." Journal of Radioanalytical and Nuclear Chemistry 271, no. 1 (2007): 159–64. http://dx.doi.org/10.1007/s10967-007-0123-3.

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31

HIROKAWA, TAKESHI, SHINJI TANAKA, SATOSHI YOSHIDA, et al. "TRACE ANALYSIS OF ALUMINUM METAL REFERENCE STANDARDS BY PIXE METHOD." International Journal of PIXE 02, no. 01 (1992): 79–92. http://dx.doi.org/10.1142/s0129083592000099.

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Trace elements in thick samples of aluminum metal reference standards were analyzed by means of PIXE and ICP-AES. The samples were SRM1258 and SRM1259 from National Institute of Standards and Technology (U.S.A.) and 1-A, 3, 4-A and 83 from Japan light metal association. The observed PIXE spectrum was converted “into that of a hypothetical thin target and it was analyzed using a relative intensity database for thin target. A good agreement was obtained between the certified and the found amount of the trace elements. The analytical results for SRM1258 and SRM1259 obtained by ICP-AES method also
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32

Korotkova, N. A., K. V. Petrova, and V. B. Baranovskaya. "Analysis of cerium-substituted yttrium iron garnets by inductively coupled plasma atomic emission spectrometry with preliminary microwave decomposition." Industrial laboratory. Diagnostics of materials 89, no. 11 (2023): 24–33. http://dx.doi.org/10.26896/1028-6861-2023-89-11-24-33.

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An analytical procedure for inductively coupled plasma atomic emission (ICP-AES) analysis of iron garnets of the composition Y3 – xCexFe5 – yGayO12, where x = 0.4 – 0.5 and y = 2.4 – 2.6 with preliminary microwave decomposition of the sample is described. The compositions of acid mixtures (HCl/HNO3), as well as modes of microwave heating (holding time and temperature), providing complete dissolution of the samples are proposed. In addition to optimized sample preparation, conditions for ICP-AES analysis of cerium-doped yttrium iron garnets were studied. The effect of matrix components (Y, Ce,
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33

KONDO, Hiroyuki, Akihiro ONO, Takeshi UEMURA, and Taka-aki MINAMI. "Rapid analysis of steel by ICP-AES with electrolytic dissolution." Bunseki kagaku 45, no. 8 (1996): 777–82. http://dx.doi.org/10.2116/bunsekikagaku.45.777.

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34

Stray, Helge. "Sample introduction valve used in ICP-AES for faster analysis." Journal of Automatic Chemistry 11, no. 2 (1989): 84–86. http://dx.doi.org/10.1155/s1463924689000179.

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A twin six-port valve with two sample loops was installed between the autosampler and the nebuliser of a simultaneous inductively coupled plasma-atomic emission spectrometer. The valve was mounted close to the nebuliser inlet so that the time required for the sample to enter from the loop to the nebulizer was less than 0.5 s. The content of one loop was introduced to the nebulizer using a peristalic pump, whilst a second loop was filed with the next sample using a second peristaltic pump. The washout time was in this manner reduced by 20 s per analysis and the hourly sampling rate was increase
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35

Chernikova, I. I., K. V. Tumneva, T. V. Bakaldina, and T. N. Ermolaeva. "Improvement of Sample Preparation in ICP-AES Analysis of Ferroalloys." Inorganic Materials 56, no. 14 (2020): 1384–90. http://dx.doi.org/10.1134/s0020168520140034.

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36

Li, Xiangdong, Barry J. Coles, Michael H. Ramsey, and Iain Thornton. "Sequential extraction of soils for multielement analysis by ICP-AES." Chemical Geology 124, no. 1-2 (1995): 109–23. http://dx.doi.org/10.1016/0009-2541(95)00029-l.

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37

MOCHIZUKI, Tadashi, Akiko SAKASHITA, and Hideo IWATA. "Direct analysis of steel samples by laser ablation/ICP-AES." Bunseki kagaku 37, no. 10 (1988): T109—T114. http://dx.doi.org/10.2116/bunsekikagaku.37.10_t109.

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38

MOCHIZUKI, Tadashi, Akiko SAKASHITA, Hideo SENO, and Hideo IWATA. "Rapid analysis of slag samples by laser ablation/ICP-AES." Bunseki kagaku 37, no. 1 (1988): 12–16. http://dx.doi.org/10.2116/bunsekikagaku.37.12.

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39

AKIYOSHI, Takanori, Takamasa TAKAHASHI, and Takaaki KONDO. "Direct analysis of molten steel by chlorination ICP-AES technique." Bunseki kagaku 38, no. 10 (1989): 486–90. http://dx.doi.org/10.2116/bunsekikagaku.38.10_486.

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40

Chernikova, I. I., K. Y. Tumneva, T. Y. Bakaldina, and T. N. Ermolaeva. "IMPROVEMENT OF SAMPLE PREPARATION IN ICP-AES ANALYSIS OF FERROALLOYS." Industrial laboratory. Diagnostics of materials 85, no. 5 (2019): 11–17. http://dx.doi.org/10.26896/1028-6861-2019-85-5-11-17.

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A set of ICP-AES techniques has been developed for determination of rated elements: Ti, Si, R Al, Cu, Mo, V, Sn, and Zr in ferrotitanium; Ni, Fe, Cu, Co, and As in ferronickel; Si, Cr, and P in ferrochrome silicon; Zr, Si, Al, R and Cu in zirconium ferrosilicon; Mn, Si, and P in manganese ferrosilicon. Combination of the multi-element ICP-AES method which allows precise determination of the elements in ferroalloys in a wide range of concentrations and microwave sample preparation in closed autoclaves which excludes the loss of the components to be determined provides the rapidity of the analys
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41

Krivan, V., R. Hausbeck, P. Wilhartitz, R. Krismer, and H. M. Ortner. "Analysis of tantalum by ICP-AES involving trace-matrix separation." Fresenius' Journal of Analytical Chemistry 341, no. 9 (1991): 550–54. http://dx.doi.org/10.1007/bf00328494.

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42

Jang, Yun Jung, Jihye Lee, Kang-Bong Lee, Donghwan Kim, and Yeonhee Lee. "Quantitative Analysis and Band Gap Determination for CIGS Absorber Layers Using Surface Techniques." Journal of Analytical Methods in Chemistry 2018 (October 18, 2018): 1–9. http://dx.doi.org/10.1155/2018/6751964.

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Recently, Cu(InXGa(1−X))Se2 (CIGS) absorber layers have been extensively studied by many research groups for thin-film solar cell technology. CIGS material is particularly promising due to its exceptionally high absorption coefficient and large band gap range, which is adjustable as a function of alloy stoichiometry. To enhance the conversion performance of CIGS solar cells, understanding the CIGS structure and composition is a crucial challenge. We conducted a quantitative study to determine the bulk composition of the major elements such as Cu, In, Ga, and Se of four different CIGS photovolt
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43

Lépine, L., M. Provencher, K. Thammavong, K. C. Tran, and J. Hubert. "Dynamic Background Correction by Wavelength Modulation in ICP Atomic Emission Spectrometry (AES) and its Application to Flow-Injection-ICP-AES." Applied Spectroscopy 46, no. 5 (1992): 864–72. http://dx.doi.org/10.1366/0003702924124655.

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This paper describes a fast background correction system based on wavelength modulation that can be adapted to any dispersive ICP spectrometer. It consists of a quartz refractor plate which oscillates just behind the entrance slit to perform rapid wavelength scanning across the emission line. The system inertia is small and allows a fast scan rate, which permits real-time background measurement during fast transient signals. It has been successfully applied to flow-injection-ICP-atomic emission analysis (FIA-ICP-AES). A simple and inexpensive interface is presented to perform wavelength modula
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44

Sonawane, Ajay Bapusaheb, and Archana P. Gharote. "Evaluation of Hinguleshwara Rasa by ICP AES Elemental Qualitative Analysis for Standardization." International Journal of Ayurvedic Medicine 12, no. 1 (2021): 141–43. http://dx.doi.org/10.47552/ijam.v12i1.1714.

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In Ayurveda Shodhan (purification) process plays a very significant role in purification of Herbal & Mineral drugs like Hingul (Cinnabar) & Vatsanabh (Aconitum ferox) for internal administration. Hinguleshwar rasa is one of the important Herbo-mineral formulation in Ayurveda. In this study we performed purification (shodhan) of Hingul (cinnabar) & Vatsanabh (Aconitum ferox) according to text and after using it in Hinguleshwar rasa we try to find out elemental changes during whole purification & trituration process. Because of the need of purification & standardisation in Ay
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45

Grebneva-Balyuk, O. N., I. V. Kubrakova, O. A. Tyutyunnik, S. Yu Lapshin, and D. V. Pryazhnikov. "Multielement Analysis of Oil by ICP–AES and ICP–MS with Microwave-Assisted Sample Preparation." Journal of Analytical Chemistry 76, no. 3 (2021): 306–14. http://dx.doi.org/10.1134/s1061934821030047.

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46

Ishibashi, Yohichi. "Rapid Analysis of Steel by ICP-AES and ICP-MS with Laser Ablation Solid Sampling." ISIJ International 42, Suppl (2002): S137—S139. http://dx.doi.org/10.2355/isijinternational.42.suppl_s137.

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47

Ibrahim, Mohammed Farhad, Faiq Hama Saeed Hussain, Giuseppe Zanoni, and Giovanni Vidari. "ICP-AES/ICP-MS ELEMENTAL ANALYSIS OF TULIPA SYSTOLA STAPF. GROWING IN KURDISTAN REGION IRAQ." Journal of Pharmaceutical & Scientific Innovation 4, no. 3 (2015): 165–67. http://dx.doi.org/10.7897/2277-4572.04336.

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48

Chan, Yan-Ying, and Samuel Chun-Lap Lo. "Analysis of Ling Zhi (Ganoderma lucidum) using dynamic reaction cell ICP-MS and ICP-AES." Journal of Analytical Atomic Spectrometry 18, no. 2 (2003): 146–50. http://dx.doi.org/10.1039/b212283a.

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49

Todolí, José L., and Jean M. Mermet. "Sample introduction systems for the analysis of liquid microsamples by ICP-AES and ICP-MS." Spectrochimica Acta Part B: Atomic Spectroscopy 61, no. 3 (2006): 239–83. http://dx.doi.org/10.1016/j.sab.2005.12.010.

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50

Andrews, Ronnee N., Michael Keane, Kevin W. Hanley, H. Amy Feng, and Kevin Ashley. "Manganese speciation of laboratory-generated welding fumes." Analytical Methods 7, no. 15 (2015): 6403–10. http://dx.doi.org/10.1039/c5ay01147g.

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