Verfügbarkeit: Elemental speciation

Elemental speciation: new approaches for trace element analysis

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Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2000
Ausgabe:	1. ed.
Schriftenreihe:	Wilson and Wilson's Comprehensive analytical chemistry 33
Schlagworte:	Chimie de l'environnement - Méthodologie Eser analiz - Metodoloji Spéciation (Chimie) Ultramicrométhodes - Méthodologie Çevre kimyası - Metedoloji Environmental chemistry > Methodology Speciation (Chemistry) Trace analysis > Methodology Spurenelement
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 581 S. Ill., graph. Darst.
ISBN:	0444500472

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245	1	0	\|a Elemental speciation \|b new approaches for trace element analysis \|c ed. by Joseph A. Caruso...
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650		4	\|a Çevre kimyası - Metedoloji
650		4	\|a Environmental chemistry \|x Methodology
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Datensatz im Suchindex

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adam_text	Titel: Elemental speciation Autor: Caruso, Joseph A Jahr: 2000 Contents Series Editor s Preface............................xxiii Editors Preface...............................xxiv Chapter 1. Introduction...........................................1 1.1 Sampling and sample preparation..................2 1.2 Highly selective chromatographic methods.............3 1.3 Plasma mass spectrometry......................3 1.4 Information rich plasma detectors..................5 References..................................6 Chapter 2. Sample preparation techniques for elemental speciation studies. . 7 2.1 Introduction..............................7 2.2 Sample collection, pretreatment and storage...........10 2.2.1 Atmospheric and gas samples...............10 2.2.2 Water samples........................11 2.2.3 Sediments and soils.....................13 2.2.4 Biological materials.....................14 2.3 Sample handling prior to GC chromatographic analysis.....15 2.3.1 Aqueous samples......................16 2.3.1.1 Sorption (solid-phase extraction)........16 2.3.1.2 Solid phase micro-extraction...........16 2.3.1.3 Solvent extraction................17 2.3.1.4 Steam distillation.................18 2.3.1.5 Liquid-gas extraction (purge and trap).....18 2.3.2 Solid samples........................19 2.3.2.1 Leaching methods................19 2.3.2.2 Solubilization of biological samples prior to speciation analysis................20 2.3.2.3 Enhanced techniques: supercritical fluid extraction and accelerated solvent extraction. . 20 2.3.2.4 Microwave-assisted processes..........21 2.3.3 Organic samples (gas condensates, shale oils, gasoline) . 22 2.3.4 Derivatization techniques in speciation analysis.....23 2.3.4.1 Derivatization by hydride generation......24 xi 2.3.4.2 Derivatization with tetraalkyl(aryl)borates... 24 2.3.4.3 Derivatization with Grignard reagents.....25 2.3.4.4 Other derivatization techniques.........26 2.3.5 Preconcentration and cleanup...............26 2.3.6 Automation of sample preparation and GC sample introduction.........................27 2.4 Handling of biomaterials prior to HPLC..............29 2.4.1 Organometalloid compounds................29 2.4.2 Coordination complexes of metals with bio-ligands . ... 31 2.4.2.1 Biological fluids (full blood, plasma, synovial fluid, breast milk).................31 2.4.2.2 Plant and animal tissues.............31 2.5 Conclusions—trends and perspectives...............32 References.................................^ Chapter 3. The use of biological substrates for preconcentration and element speciation............................................41 3.1 Introduction.............................41 3.2 Accumulation mechanisms.....................44 3.2.1 Biosorption.........................44 3.2.2 Interactions between metal species and biological substrates..........................46 3.2.3 Toxicity of heavy metals to biological substrates.....46 3.2.3.1 Microorganism strategies for avoiding metal toxicity......................48 3.2.3.2 Use of dead biomass for metal removal and recovery......................49 3.2.4 Phytoremediation......................49 3.2.5 Hyperaccumulation.....................50 3.3 Experimental accumulation procedures..............52 3.3.1 Batch processes.......................52 3.3.2 Immobilization techniques.................55 3.4 Primary analytical applications of biological substrates.....57 3.4.1 Algae.............................57 3.4.2 Yeast and fungi.......................60 3.4.3 Bacteria...........................64 3.4.4 Plant-derived materials...................68 3.4.5 Use of biological substrates for speciation.........72 References....................................^7 Chapter 4. Liquid chromatographic techniques for trace element speciation analysis.................................. 4.1 Introduction....................... 4.2 The tools of the trade.................. 4.3 Liquid chromatography as the separation technique in trace element speciation analysis........... xii 4.3.1 Reversed phase partition liquid chromatography (HPLC). 87 4.3.2 Ion exchange chromatography (IEC)............89 4.3.3 Reversed phase ion pair chromatography (RP-IPC).... 91 4.3.4 Size exclusion liquid chromatography (SEC).......92 4.3.5 Micelle and vesicle-mediated chromatography......94 4.4 Interfacing liquid chromatography to atomic spectrometry. ... 96 4.4.1 Flame atomic absorption spectrometry (FAAS) detection. 97 4.4.2 Hydride generation-AAS detection.............98 4.4.3 Inductively coupled plasma-optical emission spectrometry (ICP-OES)..................99 4.4.4 Inductively coupled plasma-mass spectrometry (ICP-MS) detection.....................100 4.5 Applications to particular trace elements.............103 4.5.1 Arsenic...........................103 4.5.2 Lead............................106 4.5.3 Tin.............................106 4.5.4 Mercury..........................109 4.5.5 Selenium..........................109 4.5.6 Chromium.........................112 4.5.7 Aluminum.........................113 References.................................115 Chapter 5. Gas chromatographic and supercritical fluid chromatographic techniques for elemental speciation.............................123 5.1 Introduction............................123 5.2 Atomic plasma emission gas chromatographic detectors (AED). 124 5.2.1 Microwave induced plasmas as gas chromatographic detectors..........................125 5.2.2 Other plasma systems for GC detection.........127 5.3 Plasma interfacing with capillary GC...............128 5.4 Analytical information and speciation by GC-AED.......128 5.4.1 GC-AED detection of non-metallic elements.......133 5.4.2 GC-AED detection of metallic elements.........139 5.4.2.1 GC-AED of main group metallic compounds. . 139 5.4.2.2 GC-AED of transition metal compounds . . . . 142 5.5 Plasma detectors for supercritical fluid chromatography .... 143 5.6 Atomic plasma mass spectral gas chromatographic detectors. . 144 5.7 The future of atomic emission chromatographic detection. . . . 147 References.................................147 Chapter 6. Capillary electrophoresis for elemental speciation studies.....151 6.1 Introduction............................151 6.2 Principles and instruments for elemental speciation using capillary electrophoresis......................153 6.2.1 Influence of experimental parameters on migration time 154 xm . . . .. .......158 6.2.2 Sample injection............ •. •. ¦ . 6.2.2.1 Hydrodynamic or hydrostatic injection.....xoo 6 2.2.2 Electrokinetic injection............. 6.2.3 Influence of experimental parameters on band dispersion and resolution................. 6.2.3.1 Longitudinal diffusion............. 6.2.3.2 Injected sample plug.............. 6.2.3.3 Joule heating.................. 6.2.3.4 Concentration overload.............1°* 6.2.3.5 Laminar flow.................. 6.2.3.6 Sample-wall interactions............lb* 6.2.4 Selection of experimental parameters..........163 6.2.4.1 Applied voltage.................l°3 6.2.4.2 Capillary inner diameter............164 6.2.4.3 Capillary length ... ................164 6.2.4.4 Capillary material and coating.........164 6.2.4.5 Electrolyte/bufTer...............166 6.2.4.6 Injection volume ................166 6.2.4.7 Optimizing injection volume, capillary diameter and electrolyte/buffer conductivity. . 166 6.3 Detectors for elemental speciation by CE.............166 6.3.1 On-capillary detection . . ...............166 6.3.1.1 Indirect UV detection..............168 6.3.1.2 Direct on-capillary detection by electrochemical detection............168 6.3.1.3 Direct on-capillary detection by laser induced fluorescence...................169 6.3.1.4 UV absorption detection following complexation...................169 6.3.2 Post-capillary detectors..................169 6.3.2.1 Interface considerations.............170 6.3.2.2 Inductively coupled plasma optical emission and mass spectrometry.............170 6.3.2.3 Electrospray and ion spray mass spectrometry...................179 6.3.2.4 Proton induced X-ray emission (PIXE).....180 6.4 Applications of capillary electrophoresis for elemental speciation . 181 6.4.1 Charge (oxidation) state speciation............181 6.4.2 Arsenic and selenium speciation ............182 6.4.2.1 Arsenic and selenium speciation using nonspecific detection..............183 6.4.2.2 Arsenic and selenium speciation using element selective detection...........186 6.4.2.3 Arsenic and selenium speciation using electrospray mass spectrometry detection . . . 190 xiv 6.4.3 Anion speciation......................190 6.4.4 Metal binding with organic ligands and biomolecules . . 193 6.4.4.1 Effect of complexation on migration times and CE separations.................193 6.4.4.2 CE of metal-ligand complexes.........194 6.4.4.3 Determination of metal-ligand complexation constants.....................196 6.4.4.4 Metal complexation with humic and other polyhydroxy substances.............199 6.4.4.5 Metal binding to biological molecules.....200 6.4.5 Other applications.....................202 6.5 Conclusions: advantages and limitations of capillary electrophoresis for elemental speciation.............203 References.................................204 Chapter 7. Nebulizer sample introduction for elemental speciation.......213 7.1 Introduction............................213 7.2 High performance liquid chromatography inductively coupled plasma-mass spectrometry....................214 7.2.1 Conventional nebulizers..................216 7.2.2 Low flow nebulizers....................216 7.2.3 Less conventional nebulizer techniques.........219 7.3 Capillary electrophoresis inductively coupled plasma-mass spectrometry............................220 7.4 Conclusions and future trends..................223 References.................................224 Chapter 8. The use oflCP-AES as a detector for elemental speciation studies....................................................227 8.1 Introduction............................227 8.2 Liquid chromatography......................229 8.2.1 Mobile phases.......................231 8.2.1.1 Inorganic mobile phases............231 8.2.1.2 Organic mobile phases.............232 8.2.2 Micro-HPLC and specialized nebulizers.........234 8.2.3 Applications........................237 8.2.4 Liquid chromatography-hydride generation-ICP-AES . 238 8.2.4.1 Instrumentation.................238 8.2.4.2 Formation of reducible species.........239 8.3 Capillary zone electrophoresis..................240 8.4 Gas chromatography........................241 8.5 Supercritical fluid chromatography................244 8.6 Flow injection analysis......................244 8.7 Interferences............................244 8.8 Conclusions.............................245 References.................................246 xv Chapter 9. The use oflCP-MS as a detector for elemental speciation ^ studies....................................................249 9.1 Introduction............................... 9.2 Components of an ICP-MS.................... 9.2.1 Sample introduction.................... 9.2.2 The inductively coupled plasma..............*55 9.2.3 The mass spectrometer..................256 9.3 Elements of interest........................ 9.3.1 Chromium......................... 9.3.2 Gold and platinum.....................257 9.3.3 Lead............................^58 9.3.4 Mercury..........................258 9.3.5 Tin.............................259 9.3.6 Vanadium........................259 9.3.7 Cadmium.........................259 9.3.8 Selenium.........................260 9.3.9 Arsenic..........................2^9 9.3.10 Antimony.........................260 9.3.11 Aluminum........................261 9.3.12 Iodine...........................261 9.4 Interferences...........................261 9.4.1 Spectroscopic interferences...............261 9.4.2 Non-spectroscopic interferences.............263 9.5 Improving sample transport efficiency..............264 9.6 Coupling chromatographic techniques with ICP-MS.......266 9.6.1 Liquid chromatography.................266 9.6.2 Gas chromatography....................267 9.6.3 Supercritical fluid chromatography............268 9.7 Alternative mass analyzers....... ............268 9.8 Conclusions.............................270 References.................................271 Chapter 10. Application of isotope dilution in elemental speciation: speciated isotope dilution mass spectrometry (SIDMS)..............27/ 10.1 Introduction............................277 10.1.1 Inaccuracy of speciation analysis due to species transformations......................277 10.1.2 Stable isotopic ratio concepts and measurements .... 279 10.2 Conventional isotope dilution mass spectrometry (IDMS).... 281 10.3 Isotope dilution mass spectrometry in elemental speciation. . • 282 10.3.1 Application of isotope dilution in speciation analysis based on conventional concepts..............282 10.3.2 Principle of speciated isotope dilution mass spectrometry (SIDMS) and its comparison to other IDMS protocols . . 283 xvi 10.3.3 Calculations in speciated isotope dilution mass spectrometry........................285 10.4 Relationship between SIDMS and IDMS.............289 10.5 Preparation and calibration of isotopic spikes..........290 10.6 Measurement of isotope ratios in species.............292 10.7 Error propagation in SIDMS...................294 10.7.1 A model for SIDMS....................295 10.7.2 Monte Carlo simulation for evaluating error propagation..........................295 10.8 Standard SIDMS method, EPA method 6800 .......... 298 10.9 Demonstration and application of SIDMS in correcting for species transformation.......................299 10.9.1 Analysis of a synthesized water sample.........299 10.9.2 Analysis of environmental water samples........301 10.9.3 Analysis of extracts of chromite ore processing residue (COPR)...........................302 10.9.4 Analysis of soil extracts..................302 10.10 Application of sidms in correcting for incomplete species separation.............................303 10.11 Application of SIDMS as A diagnostic tool in identifying species altering procedures in more conventional speciation methods . 305 10.12 Application of sidms in the analysis of challenging and difficult environmental solid samples...................308 References.................................310 Chapter 11. Plasma sources as alternatives to the atmospheric pressure ICP for speciation studies.........................................315 11.1 Introduction............................315 11.2 Microwave plasmas........................316 11.2.1 Microwave plasma formation...............317 11.2.1.1 Microwave induced plasma (MIP).......317 11.2.1.2 Capacitively coupled microwave plasma (CMP) 320 11.2.1.3 Suface wave plasma or surfatron (SWP). . . . 320 11.2.1.4 Microwave plasma torch (MPT)........320 11.2.1.5 Strip-line microwave plasma (SMP)......320 11.2.2 Atomic emission spectrometry..............321 11.2.2.1 Instrumentation.................321 11.2.2.2 Gas chromatography..............323 11.2.2.3 Supercritical fluid chromatography......333 11.2.2.4 Liquid chromatography.............334 11.2.2.5 Other methods..................336 11.2.3 Mass spectrometry.....................339 11.2.3.1 Instrumentation.................340 11.2.3.2 Gas chromatography..............341 11.2.3.3 Supercritical fluid chromatography......345 xvii 11.2.3.4 Liquid chromatography.......... 11.3 Low pressure microwave plasmas.............. 11.3.1 Atomic mass spectrometry.............. 11.3.2 Molecular mass spectrometry............ 11.4 Low pressure inductively coupled plasmas......... 11.4.1 Low pressure plasma formation........... 11.4.2 Atomic emission spectrometry........... 11.4.3 Mass spectrometry.................. 11.4.3.1 Instrumentation.............. 11.4.3.2 Gas chromatography........... 11.4.3.3 Liquid sample introduction........ 11.5 Glow discharge plasmas................ . . . 11.5.1 Glow discharge plasma formation.......... 11.5.1.1 Grimm type glow discharge........ 11.5.1.2 Hollow-cathode glow discharge...... 11.5.1.3 Radio frequency glow discharge..... 11.5.2 Atomic emission spectrometry........... 11.5.2.1 Gas chromatography........... 11.5.2.2 Hydride generation............ 11.5.2.3 Liquid chromatography.......... 11.5.3 Mass spectrometry.................. 11.5.3.1 Instrumentation.............. 11.5.3.2 Gas chromatography........... 11.5.3.3 Liquid sample introduction........ 11.5.4 Other sample introduction methods........ 11.6 On-column micro-plasma.................. References.............................. Chapter 12. Elcctrospray ionization mass spectrometry................383 12.1 Elcctrospray as an elemental ion source.............383 12.1.1 A brief historical account.................383 12.1.2 Current trends in elemental analysis...........383 12.1.3 Present status of elcctrospray ionization (ESI)......384 12.1.4 Application of ESI to inorganic analytes.........385 12.1.5 Other atmospheric pressure ion sources.........386 12.2 ESI operating principles......................388 12.2.1 The clectrospray mechanism...............388 12.2.2 Taylor cone and spray morphology............391 12.2.3 Corona discharge......................391 12.2.4 Electrospray current....................393 12.2.5 Droplet formation and ion liberation mechanisms .... 395 12.3 ESI-MS hardware.........................398 12.3.1 Sample delivery......................398 12.3.2 Integration of separation technology...........401 12.3.3 Atmospheric pressure interface technology........406 346 348 349 351 351 352 352 353 354 356 361 362 363 364 365 365 365 366 367 368 370 370 370 373 373 374 376 xviii 12.3.4 Mass spectrometry.....................408 12.4 Gas phase chemistry of metallic species.............408 12.4.1 Metallic species (mono-, di-, and tri-valent cations) . . . 408 12.4.2 Non-metallic anions and oxo-anionic metal species . . . 414 12.4.3 Organometallics......................420 12.4.4 Metal-Iigand complexes..................425 12.5 Quantitative analysis.......................431 12.5.1 Analytical response curves................431 12.5.2 The role of an ESI stabilizer................433 12.5.3 Internal standardization and analyte suppression. . . . 433 12.5.4 Analytical performance and figures of merit.......434 12.6 Applications............................435 12.6.1 Fluoride in mouthwash..................435 12.6.2 Towards the analysis of disinfection by-products in municipal water supplies by ESI-FAIMS-MS......437 12.6.3 Literature review.....................437 12.7 Conclusions.............................438 References.................................439 Chapter 13. Trends in speciation analysis for routine and new environmental issues.........................................451 13.1 Introduction............................451 13.2 Determination of redox species..................455 13.2.1 Non-chromatographic methods..............455 13.2.2 Separation by microbore HPLC..............456 13.2.3 Separation by capillary zone electrophoresis.......458 13.3 Determination of organometallic species (Sn, Hg, Pb)......461 13.3.1 Trends in sample preparation procedures........461 13.3.2 Cost-effective methods...................464 13.3.2.1 Interferences...................466 13.3.2.2 Field techniques and on-site sampling.....467 13.3.3 Mercury speciation.....................468 13.3.3.1 Simple approaches using purge-and-trap methods.....................468 13.3.3.2 Evolution of methods using gas chromatography separation...........469 13.3.3.3 Development of liquid separation methods . . 471 13.3.4 Determination of Sn and Pb compounds by gas chromatographic methods.................474 13.3.4.1 Derivatization of organotin compounds .... 474 13.3.4.2 Derivatization of organolead compounds. . . . 477 13.3.4.3 Cost-effective detectors for routine determination..................477 13.4 Multielement-multispecies determination using plasma source detection..........................480 xix 13.5 New trends for the detection mode for organometal species. . . 487 13.6 Mass spectrometric detection and perspectives......... 13.6.1 Isotopic precision...................... 13.6.2 Species-specific stable isotope dilution.......... Acknowledgements........................^ References................................. Chapter 14. Speciation analysis of biological, clinical and nutritional samples using plasma spectrometry............................. 14.1 Introduction............................ 14.2 Sample collection, storage, preparation and pretreatment . . . 5U4 14.2.1 General guidelines....................^04 14.2.2 Clinical samples.....................507 14.2.3 Biological samples....................^09 14.2.4 Nutritional samples...................510 14.3 Example applications......................512 14.3.1 Clinical applications...................512 14.3.1.1 Aluminum...................513 14.3.1.2 Arsenic....................513 14.3.1.3 Chromium...................514 14.3.1.4 Iodine......................515 14.3.1.5 Lead......................516 14.3.1.6 Mercury.....................516 14.3.1.7 Platinum.....................516 14.3.1.8 Selenium.....................517 14.3.1.9 Zinc........................518 14.3.2 Biological applications...................519 14.3.2.1 Arsenic......................519 14.3.2.2 Chromium....................519 14.3.2.3 Selenium.....................520 14.3.3 Nutritional applications..................520 14.3.3.1 Arsenic......................521 14.3.3.2 Cadmium....................522 14.3.3.3 Chromium............ .... 523 14.3.3.4 Lead................................523 14.3.3.5 Selenium................, 523 14.3.3.6 Tin..................525 14.3.3.7 Bromine.....................525 14.4 Conclusions....................................525 References....................................526 Chapter 15. Certified reference materials: a tool for quality control of elemental speciation analysis....................................531 15.1 Introduction....................................531 15.2 Ways to achieve accuracy in elemental speciation studies .... 533 xx 15.3 Sources of errors in speciation analysis..............534 15.4 Calibration.............................536 15.5 The interlaboratory approach...................537 15.6 Certified reference materials—definitions............540 15.7 Requirements for the preparation of reference materials .... 541 15.7.1 Collection and pre-treatment...............542 15.7.2 Stabilization........................543 15.7.3 Homogenization......................546 15.7.4 Homogeneity control....................548 15.7.5 Stability control......................550 15.7.6 Storage and transport...................553 15.8 Procedures to certify and assign values..............555 15.8.1 Certification of reference materials............555 15.8.2 Assigned values......................558 15.9 Evaluation of results and data collection.............558 15.9.1 Description of the methods................559 15.9.2 Technical evaluation....................559 15.9.3 Statistical evaluation...................561 15.10 Availability of CRMs for quality control of speciation analysis . 563 15.11 Conclusions.............................565 Acknowledgements........................565 References.................................566 Index.....................................571 xxi
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illustrated	Illustrated
indexdate	2024-07-09T18:49:29Z
institution	BVB
isbn	0444500472
language	English
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physical	XVII, 581 S. Ill., graph. Darst.
publishDate	2000
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publisher	Elsevier
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series	Wilson and Wilson's Comprehensive analytical chemistry
series2	Wilson and Wilson's Comprehensive analytical chemistry
spelling	Elemental speciation new approaches for trace element analysis ed. by Joseph A. Caruso... 1. ed. Amsterdam [u.a.] Elsevier 2000 XVII, 581 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wilson and Wilson's Comprehensive analytical chemistry 33 Chimie de l'environnement - Méthodologie Eser analiz - Metodoloji Spéciation (Chimie) Ultramicrométhodes - Méthodologie Çevre kimyası - Metedoloji Environmental chemistry Methodology Speciation (Chemistry) Trace analysis Methodology Spurenelement (DE-588)4056595-6 gnd rswk-swf Spurenelement (DE-588)4056595-6 s DE-604 Caruso, Joseph A. Sonstige oth Wilson and Wilson's Comprehensive analytical chemistry 33 (DE-604)BV000900805 33 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009321853&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Elemental speciation new approaches for trace element analysis Wilson and Wilson's Comprehensive analytical chemistry Chimie de l'environnement - Méthodologie Eser analiz - Metodoloji Spéciation (Chimie) Ultramicrométhodes - Méthodologie Çevre kimyası - Metedoloji Environmental chemistry Methodology Speciation (Chemistry) Trace analysis Methodology Spurenelement (DE-588)4056595-6 gnd
subject_GND	(DE-588)4056595-6
title	Elemental speciation new approaches for trace element analysis
title_auth	Elemental speciation new approaches for trace element analysis
title_exact_search	Elemental speciation new approaches for trace element analysis
title_full	Elemental speciation new approaches for trace element analysis ed. by Joseph A. Caruso...
title_fullStr	Elemental speciation new approaches for trace element analysis ed. by Joseph A. Caruso...
title_full_unstemmed	Elemental speciation new approaches for trace element analysis ed. by Joseph A. Caruso...
title_short	Elemental speciation
title_sort	elemental speciation new approaches for trace element analysis
title_sub	new approaches for trace element analysis
topic	Chimie de l'environnement - Méthodologie Eser analiz - Metodoloji Spéciation (Chimie) Ultramicrométhodes - Méthodologie Çevre kimyası - Metedoloji Environmental chemistry Methodology Speciation (Chemistry) Trace analysis Methodology Spurenelement (DE-588)4056595-6 gnd
topic_facet	Chimie de l'environnement - Méthodologie Eser analiz - Metodoloji Spéciation (Chimie) Ultramicrométhodes - Méthodologie Çevre kimyası - Metedoloji Environmental chemistry Methodology Speciation (Chemistry) Trace analysis Methodology Spurenelement
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009321853&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000900805
work_keys_str_mv	AT carusojosepha elementalspeciationnewapproachesfortraceelementanalysis

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