Thematische Bibliographien / ICP-MS coupling / Zeitschriftenartikel

Zeitschriftenartikel zum Thema „ICP-MS coupling“

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Autor: Grafiati
Veröffentlicht am 13. Juli 2024

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1

Holdship, Phil, Pierre Bonnand, David Price und Paul Watson. „Micro flow injection ICP-MS analysis of high matrix samples: an investigation of its capability to measure trace elements in iron meteorites“. Journal of Analytical Atomic Spectrometry 33, Nr. 11 (2018): 1941–53. http://dx.doi.org/10.1039/c8ja00162f.

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The coupling of a micro-flow injection sample introduction system to a highly versatile quadrupole ICP-MS (FI-ICP-MS) has been demonstrated to achieve accurate and precise trace element measurements for several iron meteorites.
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2

Michalke, B., und P. Schramel. „The coupling of capillary electrophoresis to ICP-MS“. Analusis 26, Nr. 6 (Juli 1998): 51–56. http://dx.doi.org/10.1051/analusis:199826060051.

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3

Seubert, Andreas. „On-line coupling of ion chromatography with ICP–AES and ICP–MS“. TrAC Trends in Analytical Chemistry 20, Nr. 6-7 (Juni 2001): 274–87. http://dx.doi.org/10.1016/s0165-9936(01)00082-6.

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4

Michalke, B., und P. Schramel. „The coupling of capillary electrophore-sis to ICP-MS“. Analusis 26, Nr. 6 (Juli 1998): M51—M56. http://dx.doi.org/10.1051/analusis:1998147.

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5

Soto-Alvaredo, Juan, Florian Dutschke, Jörg Bettmer, María Montes-Bayón, Daniel Pröfrock und Andreas Prange. „Initial results on the coupling of sedimentation field-flow fractionation (SdFFF) to inductively coupled plasma-tandem mass spectrometry (ICP-MS/MS) for the detection and characterization of TiO2 nanoparticles“. Journal of Analytical Atomic Spectrometry 31, Nr. 7 (2016): 1549–55. http://dx.doi.org/10.1039/c6ja00079g.

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6

Procópio, Vitória Aparecida, Rodrigo Mendes Pereira, Camila Neves Lange, Bruna Moreira Freire und Bruno Lemos Batista. „Chromium Speciation by HPLC-DAD/ICP-MS: Simultaneous Hyphenation of Analytical Techniques for Studies of Biomolecules“. International Journal of Environmental Research and Public Health 20, Nr. 6 (10.03.2023): 4912. http://dx.doi.org/10.3390/ijerph20064912.

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The first element legislated adopting chemical speciation was chromium (Cr) for differentiation between the highly toxic Cr(VI) from the micronutrient Cr(III). Therefore, this work aimed to develop a new analytical method through the coupling of High-Performance Liquid Chromatography with Diode-Array Detection (HPLC-DAD) with inductively coupled plasma mass spectrometry (ICP-MS) to obtain molecular and elemental information simultaneously from a single sample injection. In the first step, a low-cost flow split made of acrylic was developed aiming at optimally directing the sample to the detectors, enabling the HPLC-DAD/ICP-MS coupling. After the extraction of Certified Reference Materials (CRM of natural water NIST1640a and sugar cane leaf agro FC_012017), the recoveries determined by ICP-MS were 99.7% and 85.4%, respectively. Then, the method of HPLC-DAD/ICP-MS was applied for real samples of the CRMs. The presence of possible biomolecules associated with Cr(III) and Cr(VI) species was evaluated, with the simultaneous response detection of molecular (DAD) and elementary (ICP-MS) detectors. Potential biomolecules were observed during the monitoring of Cr(VI) and Cr(III) in sugar cane leaves, water samples and a supplement of Cr picolinate. Finally, the article also discusses the potential of the technique applied to biomolecules containing other associated elements and the need of more bioanalytical methods to understand the presence of trace elements in biomolecules.
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7

Faßbender, Sebastian, Marcus von der Au, Maren Koenig, Jürgen Pelzer, Christian Piechotta, Jochen Vogl und Björn Meermann. „Species-specific isotope dilution analysis of monomethylmercury in sediment using GC/ICP-ToF-MS and comparison with ICP-Q-MS and ICP-SF-MS“. Analytical and Bioanalytical Chemistry 413, Nr. 21 (23.07.2021): 5279–89. http://dx.doi.org/10.1007/s00216-021-03497-z.

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AbstractA recently introduced inductively coupled plasma-time-of-flight-mass spectrometer (ICP-ToF-MS) shows enhanced sensitivity compared to previous developments and superior isotope ratio precision compared to other ToF and commonly used single-collector ICP-MS instruments. Following this fact, an improvement for isotope dilution ICP-MS using the new instrumentation has been reported. This study aimed at investigating whether this improvement also meets the requirements of species-specific isotope dilution using GC/ICP-MS, where short transient signals are recorded. The results of the analysis of monomethylmercury (MMHg) of a sediment reference material show that isotope ratio precision of ICP-MS instruments equipped with quadrupole, sector-field, and time-of-flight mass analyzers is similar within a broad range of peak signal-to-noise ratio when analyzing one isotopic system. The procedural limit of quantification (LOQ) for MMHg, expressed as mass fraction of Hg being present as MMHg, w(Hg)MMHg, was similar as well for all investigated instruments and ranged between 0.003 and 0.016 μg/kg. Due to the simultaneous detection capability, the ICP-ToF-MS might, however, be more favorable when several isotopic systems are analyzed within one measurement. In a case study, the GC/ICP-ToF-MS coupling was applied for analysis of MMHg in sediments of Finow Canal, a historic German canal heavily polluted with mercury. Mass fractions between 0.180 and 41 μg/kg (w(Hg)MMHg) for MMHg, and 0.056 and 126 mg/kg (w(Hg)total) for total mercury were found in sediment samples taken from the canal upstream and downstream of a former chemical plant. Graphical abstract
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8

Cheng, Heyong, Pu Li, Jinhua Liu und Zigang Xu. „Interfacing monolith-based electrochromatography in microchips with inductively coupled plasma mass spectrometry for elemental speciation“. Journal of Analytical Atomic Spectrometry 31, Nr. 9 (2016): 1869–76. http://dx.doi.org/10.1039/c6ja00112b.

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9

Baghdadi, S., G. Cote, C. Beyaert, B. Mane, A. Peroux, L. Masclet, F. Rebiere, M. Agarande und C. Bouvier-Capely. „Coupling between a calix[6]arene-based chromatography column and ICP-MS for on-line actinide analysis“. Journal of Analytical Atomic Spectrometry 31, Nr. 7 (2016): 1406–13. http://dx.doi.org/10.1039/c6ja00063k.

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10

Helfrich, Andreas, Wolfram Brüchert und Jörg Bettmer. „Size characterisation of Au nanoparticles by ICP-MS coupling techniques“. Journal of Analytical Atomic Spectrometry 21, Nr. 4 (2006): 431. http://dx.doi.org/10.1039/b511705d.

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11

Michalke, B., und Peter Schramel. „Coupling of capillary electrophoresis with ICP-MS for speciation investigations“. Fresenius' Journal of Analytical Chemistry 357, Nr. 6 (11.03.1997): 594–99. http://dx.doi.org/10.1007/s002160050220.

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12

Ronzani, Anne-Laure, Fabien Pointurier, Martin Rittner, Olga Borovinskaya, Martin Tanner, Amélie Hubert, Anne-Claire Humbert, Jean Aupiais und Nicolas Dacheux. „Capabilities of laser ablation – ICP-TOF-MS coupling for isotopic analysis of individual uranium micrometric particles“. Journal of Analytical Atomic Spectrometry 33, Nr. 11 (2018): 1892–902. http://dx.doi.org/10.1039/c8ja00241j.

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13

Alvarez Penanes, Pelayo, Mariella Moldovan, Alfredo Mederos, Pablo Martín-Ramos und J. Ignacio García Alonso. „Direct determination of Pb isotope ratios in archaeological materials by coupling liquid chromatography to multicollector ICP-MS“. Journal of Analytical Atomic Spectrometry 36, Nr. 8 (2021): 1694–703. http://dx.doi.org/10.1039/d1ja00046b.

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14

Londonio, Agustín, Paul Emir Hasuoka, Pablo Pacheco, Raúl Andrés Gil und Patricia Smichowski. „Online solid phase extraction-HPLC-ICP-MS system for mercury and methylmercury preconcentration using functionalised carbon nanotubes for their determination in dietary supplements“. Journal of Analytical Atomic Spectrometry 33, Nr. 10 (2018): 1737–44. http://dx.doi.org/10.1039/c8ja00188j.

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15

Rauch, Sebastien, und Gregory M. Morrison. „Micrometer-Resolved Binding of Lead to Iron in Urban River Sediments“. Australian Journal of Chemistry 57, Nr. 10 (2004): 921. http://dx.doi.org/10.1071/ch04066.

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Recent developments in laser microprobes and the coupling of laser ablation (LA) to inductively coupled plasma mass spectrometry (ICP-MS) has opened up the possibility for detailed analysis of individual sediment grains and the elucidation of metal association with bulk elements and phases. Here, LA–ICP-MS is used for the micrometer-resolved, multi-element analysis of Pb and bulk elements such as Fe, Mg, Al, and Si. Normalized Pb signals show a clear association to Fe coatings at the surface of the particles.
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16

Van Malderen, Stijn J. M., Amy J. Managh, Barry L. Sharp und Frank Vanhaecke. „Recent developments in the design of rapid response cells for laser ablation-inductively coupled plasma-mass spectrometry and their impact on bioimaging applications“. Journal of Analytical Atomic Spectrometry 31, Nr. 2 (2016): 423–39. http://dx.doi.org/10.1039/c5ja00430f.

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This review covers developments in the design of Laser Ablation (LA) cells, the associated transport tubing assembly, and their coupling to Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) instrumentation.
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17

Szpunar, J., und R. Lobinski. „Species-selective Analysis for Metal - Biomacromolecular Complexes using Hyphenated Techniques“. Pure and Applied Chemistry 71, Nr. 5 (30.05.1999): 899–918. http://dx.doi.org/10.1351/pac199971050899.

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Analytical chemistry of metal complexes with biomacromolecules based on the coupling of a high resolution separation technique with an element or species selective detection technique is critically discussed. The role of size-exclusion chromatography (SEC) with on-line atomic spectrometric detection is evaluated for the characterization of the metal distribution among the fractions of different molecular weight. Attention is given to the conditions for the separation of metallated biomacromolecular isoforms and sub-isoforms by anion-exchange and reversed-phase HPLC. Techniques for interfacing chromatography with atomic absorption spectrometry (AAS), inductively coupled plasma atomic emission spectrometry (ICP AES) and ICP mass spectrometry (ICP MS) are assessed. The potential of electrospray (tandem) mass spectrometry for the on-line determination of the molecular mass of the eluting protein is highlighted. Perspectives for capillary zone electrophoresis (CZE), microbore and capillary HPLC with ICP MS and electrospray MS detection for probing metalloproteins are discussed. Applications of hyphenated techniques to the analysis of real-world samples are reviewed.
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18

Rappel, Christina, und Dirk Schaumlöffel. „Improved nanonebulizer design for the coupling of nanoHPLC with ICP-MS“. Journal of Analytical Atomic Spectrometry 25, Nr. 12 (2010): 1963. http://dx.doi.org/10.1039/c0ja00050g.

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19

Desaulty, Anne-Marie, Philippe Lach und Sébastien Perret. „Rapid determination of lead isotopes in water by coupling DGT passive samplers and MC-ICP-MS laser ablation“. Journal of Analytical Atomic Spectrometry 35, Nr. 8 (2020): 1537–46. http://dx.doi.org/10.1039/d0ja00121j.

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We have developed a method for measuring Pb-isotope compositions in natural water, based on coupling a commercially available chelex-100 DGT passive sampler with direct laser-ablation MC-ICP-MS on DGT resin.
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20

Donard, A., F. Pointurier, A. C. Pottin, A. Hubert und C. Pécheyran. „Determination of the isotopic composition of micrometric uranium particles by UV femtosecond laser ablation coupled with sector-field single-collector ICP-MS“. Journal of Analytical Atomic Spectrometry 32, Nr. 1 (2017): 96–106. http://dx.doi.org/10.1039/c6ja00071a.

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In this article, performance of the coupling of a UV-fs-LA system with a high sensitivity ICP-MS for isotope analysis of individual micrometric uranium particles, including minor isotopes 234U and 236U, is discussed.
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21

Makarov, A., und J. Szpunar. „The coupling of size-exclusion HPLC with ICP-MS in bioinorganic analysis“. Analusis 26, Nr. 6 (Juli 1998): M44—M48. http://dx.doi.org/10.1051/analusis:1998145.

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22

Chassaigne, H., und J. Szpunar. „The coupling of reversed-phase HPLC with ICP-MS in bioinorganic analysis“. Analusis 26, Nr. 6 (Juli 1998): M48—M51. http://dx.doi.org/10.1051/analusis:1998146.

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23

Makarov, A., und J. Szpunar. „The coupling of size-exclusion HPLC with ICP-MS in bioinorganic analysis“. Analusis 26, Nr. 6 (Juli 1998): 44–47. http://dx.doi.org/10.1051/analusis:199826060044.

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24

Chassaigne, H., und J. Szpunar. „The coupling of reversed-phase HPLC with ICP-MS in bioinorganic analysis“. Analusis 26, Nr. 6 (Juli 1998): 48–50. http://dx.doi.org/10.1051/analusis:199826060048.

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25

Rädlinger, Gunther, und K. G. Heumann. „Determination of halogen species of humic substances using HPLC/ICP-MS coupling“. Fresenius' Journal of Analytical Chemistry 359, Nr. 4-5 (13.10.1997): 430–33. http://dx.doi.org/10.1007/s002160050604.

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26

Sun, Xubo, und Longfei Xia. „ICP Test Sample Technology Reserve“. Frontiers in Humanities and Social Sciences 3, Nr. 12 (22.12.2023): 150–53. http://dx.doi.org/10.54691/t563md80.

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The full name of ICP is the INDUCTIVELY COUPLED PLASMA, that is, the inductive coupling plasma technology, which is a very effective analysis method for measuring marks (PPM, PPB level). Under normal circumstances, it can be used with MS, AES, etc., which can realize various uses such as analysis of the amount of inorganic element marks, isotopes, unit elements, multi -element analysis, and multi -morphological analysis in organic matter.
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27

Barber, Angela, Sun Kly, Matthew G. Moffitt, Logan Rand und James F. Ranville. „Coupling single particle ICP-MS with field-flow fractionation for characterizing metal nanoparticles contained in nanoplastic colloids“. Environmental Science: Nano 7, Nr. 2 (2020): 514–24. http://dx.doi.org/10.1039/c9en00637k.

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Composite particles containing metallic nanoparticles in a polymer matrix, which simulate environmentally-transformed nanoparticles, are effectively characterized by combining field-flow fractionation with single particle ICP-MS.
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28

Zhang, Jing, Zhen Qin, Dachao Deng, Junsheng Liao, Xingjian Wei und Ning Zhang. „A novel method for the online measurement of impurities in uranium by coupling microfluidics with ICP-MS“. Journal of Analytical Atomic Spectrometry 31, Nr. 4 (2016): 934–39. http://dx.doi.org/10.1039/c5ja00491h.

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29

Michalke, Bernhard. „The coupling of LC to ICP-MS in element speciation: I. General aspects“. TrAC Trends in Analytical Chemistry 21, Nr. 2 (Februar 2002): 142–53. http://dx.doi.org/10.1016/s0165-9936(01)00146-7.

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30

Becker, Stefan, und Alfred Vitalis Hirner. „Coupling of inductively coupled plasma mass spectrometry (ICP-MS) with electrothermal vaporisation (ETV)“. Fresenius' Journal of Analytical Chemistry 350, Nr. 4-5 (1994): 260–63. http://dx.doi.org/10.1007/bf00322479.

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31

Wildner, H., und Gerold W�nsch. „Isotope dilution ? high efficiency nebulization-ICP-MS: The coupling of accuracy and sensitivity“. Analytical and Bioanalytical Chemistry 354, Nr. 7-8 (01.03.1996): 807–10. http://dx.doi.org/10.1007/s0021663540807.

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32

Wang, Yuchuan, Ligang Hu, Xinming Yang, Yuen-Yan Chang, Xuqiao Hu, Hongyan Li und Hongzhe Sun. „On-line coupling of continuous-flow gel electrophoresis with inductively coupled plasma-mass spectrometry to quantitatively evaluate intracellular metal binding properties of metallochaperones HpHypA and HpHspA in E. coli cells“. Metallomics 7, Nr. 10 (2015): 1399–406. http://dx.doi.org/10.1039/c5mt00054h.

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33

Bierwirth, Malte, Vinzent Olszok, Annett Wollmann und Alfred P. Weber. „A new coupling setup of DMA, CPC and sp-ICP-MS with increased versatility“. Journal of Aerosol Science 163 (Juni 2022): 105983. http://dx.doi.org/10.1016/j.jaerosci.2022.105983.

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34

Gómez-Jacinto, Veronica, Ana Arias-Borrego, Tamara García-Barrera, Ines Garbayo, Carlos Vílchez und José Luis Gómez-Ariza. „Iodine speciation in iodine-enriched microalgae Chlorella vulgaris“. Pure and Applied Chemistry 82, Nr. 2 (31.01.2010): 473–81. http://dx.doi.org/10.1351/pac-con-09-08-01.

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The characterization of iodine species in the microalgae Chlorella vulgaris after cultivation with different potassium iodide concentrations was performed using the coupling of multidimensional chromatography (size exclusion chromatography, SEC, and anion exchange chromatography, AEC) with inductively coupled plasma-mass spectrometry (ICP-MS) detection. Two iodine fractions, water-soluble and macromolecular fractions, were obtained using a sequential extraction scheme based on chemical reagents. Most iodine species separated from the water-soluble fraction with SEC-ICP-MS (mass range from 0.5 to 100 kDa) are present in inorganic forms (peak III), although the other two peaks were detected (peaks I and II). The application of AEC to the isolated peak III fraction allows the characterization of IO3– (about 25 %) and I– (about 75 %). The application of SEC-ICP-MS (mass range from 10 to 1200 kDa) to the macromolecular fraction reveals the presence of four peaks from the void volume to about 67 kDa, a peak is located about 600 kDa. The mass balance of iodine in the different fractions obtained from the microalgae raw stuff shows that the water-soluble fraction represents 66.7 % of total iodine in microalgae, but the macromolecular fraction only contains 13.3 %, both summing up for 79.9 % of the total amount of iodine, which confirms the suitability of the separation scheme. Further studies have to be focused on the purification of the isolated fractions and their identification by tandem MS.
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35

Nischwitz, V., B. Michalke und A. Kettrup. „Identification and quantification of metallothionein isoforms and superoxide dismutase in spiked liver extracts using HPLC-ESI-MS offline coupling and HPLC-ICP-MS online coupling“. Analytical and Bioanalytical Chemistry 375, Nr. 1 (Januar 2003): 145–56. http://dx.doi.org/10.1007/s00216-002-1594-2.

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36

Klemm, Sebastian O., Angel A. Topalov, Claudius A. Laska und Karl J. J. Mayrhofer. „Coupling of a high throughput microelectrochemical cell with online multielemental trace analysis by ICP-MS“. Electrochemistry Communications 13, Nr. 12 (Dezember 2011): 1533–35. http://dx.doi.org/10.1016/j.elecom.2011.10.017.

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37

Wang, Dingyi, Bin He, Xueting Yan, Qiying Nong, Chao Wang, Jie Jiang, Ligang Hu und Guibin Jiang. „3D printed gel electrophoresis device coupling with ICP-MS for online separation and detection of metalloproteins“. Talanta 197 (Mai 2019): 145–50. http://dx.doi.org/10.1016/j.talanta.2019.01.025.

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38

Michalke, Bernhard. „The coupling of LC to ICP-MS in element speciation – Part II: Recent trends in application“. TrAC Trends in Analytical Chemistry 21, Nr. 3 (März 2002): 154–65. http://dx.doi.org/10.1016/s0165-9936(02)00303-5.

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39

Seubert, A., und Michael Nowak. „Trace analysis of bromate in drinking waters by means of on-line coupling IC-ICP-MS“. Fresenius' Journal of Analytical Chemistry 360, Nr. 7-8 (02.04.1998): 777–80. http://dx.doi.org/10.1007/s002160050804.

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40

Zhu, Xuewei, Fujian Xu, Qian He, Zhi Xing, Sichun Zhang und Xinrong Zhang. „Detection of intermediates for diatomic [TaO]+ catalyzed gas-phase reaction of methane coupling to ethane and ethylene by ICP-MS/MS“. Microchemical Journal 161 (Februar 2021): 105762. http://dx.doi.org/10.1016/j.microc.2020.105762.

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41

Li, Ying, und P. Barker. „Field Evaluation of a Portable Whispering Gallery Mode Accelerometer“. Sensors 18, Nr. 12 (29.11.2018): 4184. http://dx.doi.org/10.3390/s18124184.

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An accelerometer utilising the optomechanical coupling between an optical whispering gallery mode (WGM) resonance and the motion of the WGM cavity itself was prototyped and field-tested on a vehicle. We describe the assembly of this portable, battery operated sensor and the field-programmable gate array automation. Pre-trial testing using an electrodynamic shaker demonstrated linear scale-factors with <0.3% standard deviation ( ± 6 g range where g = 9.81 ms − 2 ), and a strong normalised cross-correlation coefficient (NCCC) of r ICP / WGM = 0.997 when compared with an integrated circuit piezoelectric (ICP) accelerometer. A noise density of 40 μ g Hz − 1 / 2 was obtained for frequencies of 2–7 kHz, increasing to 130 μ g Hz − 1 / 2 at 200 Hz, and 250 μ g Hz − 1 / 2 at 100 Hz. A reduction in the cross-correlation was found during the trial, r ICP / WGM = 0.36, which we attribute to thermal fluctuations, mounting differences, and the noisy vehicle environment. The deployment of this hand-fabricated sensor, shown to operate and survive during ±60 g shocks, demonstrates important steps towards the development of a chip-scale device.
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42

Pointurier, Fabien, Amélie Hubert und Anne-Claire Pottin. „Performance of laser ablation: quadrupole-based ICP-MS coupling for the analysis of single micrometric uranium particles“. Journal of Radioanalytical and Nuclear Chemistry 296, Nr. 2 (21.09.2012): 609–16. http://dx.doi.org/10.1007/s10967-012-2119-x.

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43

Slaets, Sofie, Freddy Adams, Isaac Rodriguez Pereiro und Ryszard Łobiński. „Optimization of the coupling of multicapillary GC with ICP-MS for mercury speciation analysis in biological materials“. J. Anal. At. Spectrom. 14, Nr. 5 (1999): 851–57. http://dx.doi.org/10.1039/a809296f.

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44

Sonke, Jeroen E., Thomas Zambardi und Jean-Paul Toutain. „Indirect gold trap–MC-ICP-MS coupling for Hg stable isotope analysis using a syringe injection interface“. Journal of Analytical Atomic Spectrometry 23, Nr. 4 (2008): 569. http://dx.doi.org/10.1039/b718181g.

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45

Pocklanová, Radka, Indrajeet R. Warkad, Robert Prucek, Anna Balzerová, Aleš Panáček, Ravishankar G. Kadam, Libor Kvítek und Manoj B. Gawande. „Nanodiamond Supported Ultra-Small Palladium Nanoparticles as an Efficient Catalyst for Suzuki Cross-Coupling Reactions“. Catalysts 14, Nr. 1 (12.01.2024): 53. http://dx.doi.org/10.3390/catal14010053.

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A nanocatalyst comprising ultra-small palladium nanoparticles supported on nanodiamonds (ultra-small Pd/rNDs) was fabricated via a reduction of palladium (II) salt on oxidized nanodiamond. The prepared catalyst was characterized using XRD, XPS, ICP-MS, AAS, and TEM/HRTEM techniques, including STEM-EDS chemical mapping, which revealed that the modified material is a combination of reduced nanodiamond decorated with palladium nanoparticles. The as-prepared and well-characterized ultra-small Pd supported on rNDs displayed superb catalytic activity for Suzuki–Miyaura cross-coupling reactions at low temperature without any toxic solvents, to obtain the respective products in good-to-excellent yields (75–98%). The catalyst was easily separated from the reaction solution and was reused four times without loss of catalytic activity or chemical stability.
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46

Men, Xue, Chengxin Wu, Xuan Zhang, Xing Wei, Ming-Li Chen, Ting Yang und Jian-Hua Wang. „Intracellular silver speciation by coupling capillary electrophoresis to ICP-MS integrating a high performance spiral flow spray chamber“. Analytica Chimica Acta 1166 (Juni 2021): 338540. http://dx.doi.org/10.1016/j.aca.2021.338540.

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47

Menzel, Christoph M., Zsolt Berner und Doris Stüben. „Coupling Size-Exclusion Chromatography and ICP-MS to Investigate the Speciation of Platinum-Group Elements in Environmental Samples“. Geostandards and Geoanalytical Research 25, Nr. 2-3 (Dezember 2001): 239–51. http://dx.doi.org/10.1111/j.1751-908x.2001.tb00599.x.

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48

Gómez-Ariza, J. L., und T. García-Barrera. „Optimization of a multiple headspace SPME-GC-ECD-ICP-MS coupling for halogenated solvent residues in edible oils“. J. Anal. At. Spectrom. 21, Nr. 9 (2006): 884–90. http://dx.doi.org/10.1039/b601694d.

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49

Hils, A., M. Grote, E. Janßen und J. Eichhorn. „Speciation of trace amounts of aluminium in percolating water of forest soil by online coupling HPLC-ICP-MS“. Fresenius' Journal of Analytical Chemistry 364, Nr. 5 (06.07.1999): 457–61. http://dx.doi.org/10.1007/s002160051367.

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50

Kresimon, J., U. Grüter und A. Hirner. „HG/LT–GC/ICP–MS coupling for identification of metal(loid) species in human urine after fish consumption“. Fresenius' Journal of Analytical Chemistry 371, Nr. 5 (05.10.2001): 586–90. http://dx.doi.org/10.1007/s002160101087.

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