Verfügbarkeit: Chemistry and analysis of radionuclides

Chemistry and analysis of radionuclides: laboratory techniques and methodology

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Bibliographische Detailangaben
Hauptverfasser:	Lehto, Jukka (VerfasserIn), Hou, Xiaolin (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2011
Schlagworte:	Radionuklid
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XIX, 406 S. Ill., graph. Darst., Kt. 25 cm
ISBN:	9783527326587

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XVII ACKNOWLEDGMENTS XIX 1 RADIONUCLIDES AND THEIR RADIOMETRIE MEASUREMENT 1 1.1 RADIONUCLIDES 1 1.1.1 NATURAL RADIONUCLIDES 1 1.1.2 ARTIFICIAL RADIONUCLIDES 4 1.2 MODES OF RADIOACTIVE DECAY 6 1.2.1 FISSION 6 1.2.2 ALPHA DECAY 8 1.2.3 BETA DECAY 10 1.2.4 INTERNAL TRANSITION 12 1.3 DETECTION AND MEASUREMENT OF RADIATION 14 1.3.1 GAS IONIZATION DETECTORS 14 1.3.2 LIQUID SCINTILLATION COUNTING 16 1.3.3 SOLID SCINTILLATION DETECTORS 20 1.3.4 SEMICONDUCTOR DETECTORS 20 1.3.5 SUMMARY OF RADIOMETRIE METHODS 22 2 SPECIAL FEATURES OF THE CHEMISTRY OF RADIONUCLIDES AND THEIR SEPARATION 25 2.1 SMALL QUANTITIES 25 2.2 ADSORPTION 26 2.3 USE OF CARRIERS 28 2.4 UTILIZATION OF RADIATION IN THE DETERMINATION OF RADIONUCLIDES 31 2.5 CONSIDERATION OF ELAPSED TIME 31 2.6 CHANGES IN THE SYSTEM CAUSED BY RADIATION AND DECAY 32 2.7 THE NEED FOR RADIOCHEMICAL SEPARATIONS 32 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1002408342 DIGITALISIERT DURCH IMAGE 2 VI CONTENTS 3 3.1 3.2 3.3 3.3.1 3.3.2 3.4 3.5 3.6 3.7 3.8 3.8.1 3.8.2 4 4.1 4.2 4.2.1 4.2.2 4.2.2.1 FACTORS AFFECTING CHEMICAL FORMS OF RADIONUCLIDES IN AQUEOUS SOLUTIONS 35 SOLUTION PH 35 REDOX POTENTIAL 38 DISSOLVED GASES 42 OXYGEN 42 CARBON DIOXIDE 43 LIGANDS FORMING COMPLEXES WITH METALS 46 HUMIC SUBSTANCES 48 COLLOIDAL PARTICLES 51 SOURCE AND GENERATION OF RADIONUCLIDES 52 APPENDIX: REAGENTS USED TO ADJUST OXIDATION STATES OF RADIONUCLIDES 54 OXIDANTS 54 REDUCTANTS 55 SEPARATION METHODS 57 PRECIPITATION 57 SOLUBILITY PRODUCT 58 COPRECIPITATION 59 OBJECTIVES OF PRECIPITATION 60 PRECIDITATIONS SUEECIFIC FOR THE INVESTIGATED RADIONUDIDE 60 4.2.2.2 GROUP PRECIPITATIONS FOR THE PRECONCENTRATION OF THE TARGET RADIONUDIDE 61 4.2.2.3 GROUP PRECIPITATIONS FOR THE REMOVAL OF INTERFERING RADIONUCLIDES AND STABLE ELEMENTS 61 4.3 ION EXCHANGE 64 4.3.1 ION EXCHANGE RESINS 64 4.3.2 DISTRIBUTION COEFFICIENT AND SELECTIVITY 65 4.3.3 CATION EXCHANGE OR ANION EXCHANGE? 66 4.3.4 ION EXCHANGE CHROMATOGRAPHY 67 4.3.5 ION EXCHANGE IN ACTINIDE SEPARATIONS 68 4.4 SOLVENT EXTRACTION 70 4.4.1 EXTRACTABLE COMPLEXES 71 4.4.2 DISTRIBUTION CONSTANT AND DISTRIBUTION RATIO 72 4.4.3 EXAMPLES OF THE USE OF SOLVENT EXTRACTION IN RADIOCHEMICAL SEPARATIONS 73 4.5 EXTRACTION CHROMATOGRAPHY 74 4.5.1 PRINCIPLES OF EXTRACTION CHROMATOGRAPHY 74 4.5.2 EXTRACTION CHROMATOGRAPHY RESINS 74 4.5.3 PB AND SR RESINS 75 4.5.4 USE OF EXTRACTION CHROMATOGRAPHY IN ACTINIDE SEPARATIONS 76 IMAGE 3 CONTENTS VII 5 YIELD DETERMINATIONS AND COUNTING SOURCE PREPARATION 81 5.1 THE DETERMINATION OF CHEMICAL YIELD IN RADIOCHEMICAL ANALYSES 81 5.1.1 USE OF STABLE ISOTOPIC CARRIERS IN YIELD DETERMINATIONS 81 5.1.2 USE OF RADIOACTIVE TRACERS IN YIELD DETERMINATIONS 82 5.2 PREPARATION OF SOURCES FOR ACTIVITY COUNTING 85 5.2.1 PREPARATION OF SOURCE FOR GAMMA EMITTERS 85 5.2.2 SAMPLE PREPARATION FOR LSC 86 5.2.3 SOURCE PREPARATION FOR ALPHA SPECTROMETRY WITH SEMICONDUCTOR DETECTORS AND FOR BETA COUNTING WITH PROPORTIONAL COUNTERS 87 5.2.3.1 ELECTRODEPOSITION 88 5.2.3.2 MICRO-COPRECIPITATION 88 5.2.3.3 SPONTANEOUS DEPOSITION 89 5.3 ESSENTIALS IN CHEMICAL YIELD DETERMINATION AND IN COUNTING SOURCE PREPARATION 89 5.3.1 YIELD DETERMINATION 89 5.3.2 COUNTING SOURCE PREPARATION 90 6 RADIOCHEMISTRY OF THE ALKALI METALS 91 6.1 MOST IMPORTANT RADIONUCLIDES OF THE ALKALI METALS 91 6.2 CHEMICAL PROPERTIES OF THE ALKALI METALS 91 6.3 SEPARATION NEEDS OF ALKALI METAL RADIONUCLIDES 92 6.4 POTASSIUM - 40 K 93 6.5 CESIUM - 134 CS, 135 CS, AND 137 CS 94 6.5.1 SOURCES AND NUCLEAR CHARACTERISTICS 94 6.5.2 PRECONCENTRATION OF CESIUM NUCLIDES FROM NATURAL WATERS 95 6.5.3 DETERMINATION OF 135 CS 96 6.5.3.1 DETERMINATION OF I35 CS BY NEUTRON ACTIVATION ANALYSIS 96 6.5.3.2 DETERMINATION OF 135 CS BY MASS SPECTROMETRY 97 6.6 ESSENTIALS IN THE RADIOCHEMISTRY OF THE ALKALI METALS 98 7 RADIOCHEMISTRY OF THE ALKALINE EARTH METALS 99 7.1 MOST IMPORTANT RADIONUCLIDES OF THE ALKALINE EARTH METALS 99 7.2 CHEMICAL PROPERTIES OF THE ALKALINE EARTH METALS 99 7.3 BERYLLIUM - 7 BE AND 10 BE 102 7.4 CALCIUM - 41 CA AND 45 CA 1 02 7A.I NUCLEAR CHARACTERISTICS AND MEASUREMENT 102 7.4.2 DETERMINATION OF 45 CA AND 41 CA IN CONCRETE 103 7.5 STRONTIUM - 89 SR AND 90 SR 106 7.5.1 NUCLEAR CHARACTERISTICS AND SOURCES 106 7.5.2 MEASUREMENT OF STRONTIUM ISOTOPES 107 7.5.2.1 MEASUREMENT OF 90 SR ACTIVITY 107 7.5.2.2 SIMULTANEOUS DETERMINATION OF 89 SR AND 90 SR 109 7.5.3 RADIOCHEMICAL SEPARATIONS OF 90 SR AND 89 SR 109 7.5.3.1 DETERMINATION OF CHEMICAL YIELD IN RADIOSTRONTIUM SEPARATIONS 110 IMAGE 4 VIII CONTENTS 7.5.3.2 SEPARATION OF RADIOSTRONTIUM BY THE NITRATE PRECIPITATION METHOD 110 7.5.3.3 SEPARATION OF RADIOSTRONTIUM BY A CA(OH) 2 PRECIPITATION METHOD 113 7.5.3.4 SEPARATION OF RADIOSTRONTIUM BY EXTRACTION CHROMATOGRAPHY 114 7.6 RADIUM - 226 RA AND 228 RA 117 7.6.1 NUDEAR CHARACTERISTICS OF RADIUM ISOTOPES 117 7.6.2 MEASUREMENT OF THE ACTIVITY OF RADIUM ISOTOPES 117 7.6.3 NEED FOR DETERMINING THE ACTIVITY OF RADIUM ISOTOPES 119 7.6.4 RADIOCHEMICAL SEPARATIONS OF RADIUM 119 7.6.4.1 SEPARATION OF 226 RA IN ROCK SAMPLES WITH USE OF ION EXCHANGE 120 7.6.4.2 DETERMINATION OF 226 RA AND 228 RA IN WATER BY EXTRACTION CHROMATOGRAPHY 121 7.7 ESSENTIALS IN THE RADIOCHEMISTRY OF THE ALKALINE EARTH METALS 122 8 RADIOCHEMISTRY OF THE 3D-TRANSITION METALS 123 8.1 THE MOST IMPORTANT RADIONUDIDES OF THE 3D-TRANSITION METALS 123 8.2 CHEMICAL PROPERTIES OF THE 3D-TRANSITION METALS 124 8.3 IRON - 55 FE 125 8.3.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 55 FE 125 8.3.2 CHEMISTRY OF IRON 125 8.3.3 SEPARATION OF S5 FE 128 8.3.3.1 SEPARATION OF 55 FE BY SOLVENT EXTRACTION 128 8.3.3.2 SEPARATION OF 55 FE BY EXTRACTION CHROMATOGRAPHY 129 8.4 NICKEL - 59 NI AND 63 NI 130 8.4.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 59 NI AND 63 NI 230 8.4.2 CHEMISTRY OF NICKEL 131 8.4.3 SEPARATION OF 59 NI AND 63 NI 132 8.4.3.1 SEPARATION OF NICKEL BY THE DMG PRECIPITATION METHOD 132 8.4.3.2 SEPARATION OF 63 NI BY NI RESIN 134 8.4.3.3 SEPARATION OF NICKEL FOR THE MEASUREMENT OF NIDCEL ISOTOPES WITH AMS 135 8.4.3.4 SIMULTANEOUS DETERMINATION OF S5 FE AND 63 NI 135 8.5 ESSENTIALS IN 3-D TRANSITION METALS RADIOCHEMISTRY 137 9 RADIOCHEMISTRY OF THE 4D-TRANSITION METALS 239 9.1 IMPORTANT RADIONUCLIDES OF THE 4D-TRANSITION METALS 139 9.2 CHEMISTRY OF THE 4D-TRANSITION METALS 240 9.3 TECHNETIUM - 99 TC 140 9.3.1 CHEMISTRY OF TECHNETIUM 142 9.3.2 NUDEAR CHARACTERISTICS AND MEASUREMENT OF "TC 141 9.3.3 SEPARATION OF 99 TC 243 9.3.3.1 YIELD DETERMINATION IN 99 TC ANALYSES 243 9.3.3.2 ENRICHMENT OF"TC FOR WATER ANALYZES 244 IMAGE 5 CONTENTS IX 9.3.3.3 SEPARATION OF 99 TC FROM WATER BY PRECIPITATION AND SOLVENT EXTRACTION 244 9.3.3.4 SEPARATION OF 99 TC BY EXTRACTION CHROMATOGRAPHY 245 9.3.3.5 SEPARATION OF"TC BY DISTILLATION 246 9.4 ZIRCONIUM - 93 ZR 146 9.4.1 CHEMISTRY OF ZIRCONIUM 247 9.4.2 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 93 ZR 248 9.4.3 SEPARATION OF 93 ZR 148 9.4.3.1 DETERMINATION OF 93 ZR BY TTA EXTRACTION AND MEASUREMENT BY LSC 249 9.4.3.2 SEPARATION OF 93 ZR BY COPRECIPITATION AND SOLVENT EXTRACTION FOR THE ZR MEASUREMENT BY ICP-MS 249 9.5 MOLYBDENUM - 93 MO 251 9.5.1 CHEMISTRY OF MOLYBDENUM 252 9.5.2 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 93 MO 253 9.5.3 SEPARATION OF 93 MO 254 9.5.3.1 SEPARATION OF RADIOACTIVE MOLYBDENUM BY ALUMINUM OXIDE 254 9.5.3.2 SEPARATION OF 93 MO BY SOLVENT EXTRACTION 254 9.6 NIOBIUM - 94 NB 256 9.6.1 CHEMISTRY OF NIOBIUM 256 9.6.2 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF NIOBIUM RADIONUCLIDES 257 9.6.3 SEPARATION OF 94 NB 257 9.6.3.1 SEPARATION OF 94 NB BY PRECIPITATION AS NB 2 O S 258 9.6.3.2 SEPARATION OF 94 NB BY PRECIPITATION AS NB 2 O 5 AND BY ANION EXCHANGE 258 9.6.3.3 SEPARATION OF 94 NB BY SOLVENT EXTRACTION 259 9.7 ESSENTIALS IN THE RADIOCHEMISTRY OF 4-D TRANSITION METALS 259 10 RADIOCHEMISTRY OF THE LANTHANIDES 263 10.1 IMPORTANT LANTHANIDE RADIONUCLIDES 263 10.2 CHEMICAL PROPERTIES OF THE LANTHANIDES 163 10.3 SEPARATION OF LANTHANIDES FROM ACTINIDES 265 10.4 LANTHANIDES AS ACTINIDE ANALOGS 265 10.5 147 PM AND 151 SM 267 10.5.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 147 PM AND 15I SM 167 10.5.2 SEPARATION OF 147 PM AND 151 SM 268 10.5.2.1 SEPARATION WITH LN RESIN 168 10.5.2.2 DETERMINATION OF 147 PM FROM URINE USING ION EXCHANGE CHROMATOGRAPHY 170 10.5.2.3 SEPARATION OF 147 PM FROM IRRADIATED FUEL BY ION EXCHANGE CHROMATOGRAPHY 170 10.5.2.4 DETERMINATION OF 147 PM AND 151 SM IN ROCKS 171 10.6 ESSENTIALS OF LANTHANIDE RADIOCHEMISTRY 173 IMAGE 6 X CONTENTS 11 RADIOCHEMISTRY OF THE HALOGENS 175 11.1 IMPORTANT HALOGEN RADIONUDIDES 275 11.2 PHYSICAL AND CHEMICAL PROPERTIES OF THE HALOGENS 276 11.3 CHLORINE - 36 CL 278 11.3.1 SOURCES AND NUCLEAR CHARACTERISTICS OF 36 C1 178 11.3.2 DETERMINATION OF 36 C1 178 11.3.2.1 DETERMINATION OF 36 C1 FROM STEEL, GRAPHITE, AND CONCRETE BY SOLVENT EXTRACTION AND ION EXCHANGE 179 11.4 IODINE - 129 I 181 11.4.1 SOURCES AND NUCLEAR CHARACTERISTICS OF 129 I 181 11.4.2 MEASUREMENT OF 129 I 182 11.4.2.1 DETERMINATION OF 129 I BY NEUTRON ACTIVATION ANALYSIS 182 11.4.2.2 DETERMINATION OF 129 I BY ACCELERATOR MASS SPECTROMETRY 184 11.4.3 RADIOCHEMICAL SEPARATIONS OF 129 I 185 11.4.3.1 SEPARATION OF 129 I BY SOLVENT EXTRACTION 185 11.4.3.2 PRETREATMENT OF SAMPLES FOR 129 I ANALYSES 188 11.4.3.3 SPECIATION OF IODINE SPECIES IN WATER 188 11.5 ESSENTIALS OF HALOGEN RADIOCHEMISTRY 190 12 RADIOCHEMISTRY OF THE NOBLE CASES 193 12.1 IMPORTANT RADIONUCLIDES OF THE NOBLE GASES 193 12.2 PHYSICAL AND CHEMICAL CHARACTERISTICS OF THE NOBLE GASES 193 12.3 MEASUREMENT OF XE ISOTOPES IN AIR 194 12.4 DETERMINATION OF 85 KR IN AIR 1 94 12.5 RADON AND ITS DETERMINATION 196 12.5.1 DETERMINATION OF RADON IN OUTDOOR AIR AND SOIL PORE SPACES 197 12.5.2 DETERMINATION OF RADON IN INDOOR AIR 197 12.5.3 DETERMINATION OF RADON IN WATER 197 12.6 ESSENTIALS OF NOBLE GAS RADIODIEMISTRY 198 13 RADIOCHEMISTRY OF TRITIUM AND RADIOCARBON 201 13.1 TRITIUM - 3 H 201 13.1.1 NUCLEAR PROPERTIES OF TRITIUM 201 13.1.2 ENVIRONMENTAL SOURCES OF TRITIUM 202 13.1.3 DETERMINATION OF TRITIUM IN WATER 203 13.1.4 ELECTROLYTIC ENRICHMENT OF TRITIUM 203 13.1.5 DETERMINATION OF TRITIUM IN ORGANIC MATERIAL 204 13.1.6 DETERMINATION OF TRITIUM FROM URINE 204 13.1.7 DETERMINATION OF TRITIUM AFTER CONVERSION INTO BENZENE 205 13.1.8 DETERMINATION OF TRITIUM USING MASS SPECTROMETRY 205 13.1.9 DETERMINATION OF TRITIUM IN NUCLEAR WASTE SAMPLES 206 13.2 RADIOCARBON - 14 C 207 13.2.1 NUCLEAR PROPERTIES OF RADIOCARBON 207 13.2.2 SOURCES OF RADIOCARBON 207 13.2.3 CHEMISTRY OF INORGANIC CARBON 209 IMAGE 7 CONTENTS XI 13.2.4 CARBON DATING OF CARBONACEOUS SAMPLES 209 13.2.5 SEPARATION AND DETERMINATION OF 14 C 210 13.2.5.1 REMOVAL OF CARBON FROM SAMPLES BY COMBUSTION FOR THE DETERMINATION OF 14 C 211 13.2.5.2 DETERMINATION OF 14 C AS CALCIUM CARBONATE BY LIQUID SCINTILLATION COUNTING 211 13.2.5.3 DETERMINATION OF 14 C BY LIQUID SCINTILLATION COUNTING WITH CARBON BOUND TO AMINE 213 13.2.5.4 14 C DETERMINATION BY LSC IN BENZENE 223 13.2.5.5 14 C DETERMINATION IN GRAPHITE FORM BY AMS 223 13.2.5.6 DETERMINATION OF 14 C IN NUCLEAR WASTE 224 13.3 ESSENTIALS OF TRITIUM AND RADIOCARBON RADIOCHEMISTRY 225 14 RADIOCHEMISTRY OF LEAD, POLONIUM, TIN, AND SELENIUM 217 14.1 POLONIUM - 210 PO 228 14.1.1 NUCLEAR CHARACTERISTICS OF 210 PO 218 14.1.2 CHEMISTRY OF POLONIUM 229 14.1.3 DETERMINATION OF 210 PO 220 14.2 LEAD - 210 PB 222 14.2.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 210 PB 222 14.2.2 CHEMISTRY OF LEAD 223 14.2.3 DETERMINATION OF 210 PB 224 14.2.3.1 DETERMINATION OF 210 PB FROM THE INGROWTH OF 210 PO 225 14.2.3.2 SEPARATION OF 210 PB BY PRECIPITATION 226 14.2.3.3 SEPARATION OF 210 PB BY EXTRACTION CHROMATOGRAPHY 226 14.3 TIN - 126 SN 228 14.3.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 126 SN 228 14.3.2 CHEMISTRY OF TIN 229 14.3.3 DETERMINATION OF 126 SN 230 14.4 SELENIUM - 79 SE 233 14.4.1 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 79 SE 233 14.4.2 CHEMISTRY OF SELENIUM 233 14.4.3 DETERMINATION OF 79 SE 235 14.5 ESSENTIALS OF POLONIUM, LEAD, TIN, AND SELENIUM RADIOCHEMISTRY 236 15 RADIOCHEMISTRY OF THE ACTINIDES 239 15.1 IMPORTANT ACTINIDE ISOTOPES 239 15.2 GENERATION AND ORIGIN OF THE ACTINIDES 239 15.3 ELECTRONIC STRUCTURES OF THE ACTINIDES 244 15.4 OXIDATION STATES OF THE ACTINIDES 245 15.5 IONIC RADII OF THE ACTINIDES 246 15.6 MAJOR CHEMICAL FORMS OF THE ACTINIDES 247 15.7 DISPROPORTIONATION 247 15.8 HYDROLYSIS AND POLYMERIZATION OF THE ACTINIDES 249 IMAGE 8 XII CONTENTS 15.9 COMPLEX FORMATION OF THE ACTINIDES 250 15.10 OXIDES OF THE ACTINIDES 250 15.11 ACTINIUM 251 15.11.1 ISOTOPES OF ACTINIUM 251 15.11.2 CHEMISTRY OF ACTINIUM 252 15.11.3 SEPARATION OF ACTINIUM 253 15.11.4 ESSENTIALS OF ACTINIUM RADIOCHEMISTRY 254 15.12 THORIUM 255 15.12.1 OCCURRENCE OF THORIUM 255 15.12.2 THORIUM ISOTOPES AND THEIR MEASUREMENT 255 15.12.3 CHEMISTRY OF THORIUM 256 15.12.4 SEPARATION OF THORIUM 258 15.12.4.1 SEPARATION OF THORIUM BY PRECIPITATION 258 15.12.4.2 SEPARATION OF THORIUM BY ANION EXCHANGE 258 15.12.4.3 SEPARATION OF THORIUM BY SOLVENT EXTRACTION 259 15.12.4.4 SEPARATION OF THORIUM BY EXTRACTION CHROMATOGRAPHY 259 15.12.5 ESSENTIALS OF THORIUM RADIOCHEMISTRY 259 15.13 PROTACTINIUM 260 15.13.1 ISOTOPES OF PROTACTINIUM 260 15.13.2 CHEMISTRY OF PROTACTINIUM 262 15.13.3 SEPARATION OF PROTACTINIUM 262 15.13.4 ESSENTIALS OF PROTACTINIUM RADIOCHEMISTRY 263 15.14 URANIUM 264 15.14.1 THE MOST IMPORTANT URANIUM ISOTOPES 264 15.14.2 OCCURRENCE OF URANIUM 266 15.14.3 CHEMISTRY OF URANIUM 267 15.14.4 HYDROLYSIS OF URANIUM 269 15.14.5 FORMATION OF URANIUM COMPLEXES 269 15.14.6 URANIUM OXIDES 272 15.14.7 FROM ORE TO URANIUM FUEL 271 15.14.8 MEASUREMENT OF URANIUM 272 15.14.9 REASONS FOR DETERMINING URANIUM ISOTOPES 273 15.14.10 SEPARATION OF URANIUM 274 15.14.10.1 SEPARATION OF URANIUM FROM OTHER NATURALLY OCCURRING ALPHA-EMITTING RADIONUDIDES 274 15.14.10.2 DETERMINATION OF CHEMICAL FORMS OF URANIUM IN GROUNDWATER 274 15.14.10.3 SEPARATION OF URANIUM FROM TRANSURANIUM ELEMENTS BY ANION EXDIANGE OR BY EXTRACTION CHROMATOGRAPHY 275 15.14.10.4 SEPARATION OF URANIUM BY SOLVENT EXTRACTION WITH TRIBUTYLPHOSPHATE (TBP) 275 15.14.11 ESSENTIALS OF URANIUM RADIOCHEMISTRY 275 15.15 NEPTUNIUM 277 15.15.1 SOURCES OF NEPTUNIUM 277 15.15.2 NUCLEAR CHARACTERISTICS AND MEASUREMENT OF 237 NP 278 15.15.3 CHEMISTRY OF NEPTUNIUM 278 IMAGE 9 CONTENTS XIII 15.15.4 SEPARATION OF 237 NP 280 15.15.4.1 NEPTUNIUM TRACERS FOR YIELD DETERMINATIONS 280 15.15.4.2 PRECONCENTRATION OF NEPTUNIUM FROM LARGE WATER VOLUMES 282 15.15.4.3 SEPARATION OF 237 NP BY EXTRACTION CHROMATOGRAPHY 282 15.15.4.4 SEPARATION OF 237 NP BY ANION EXCHANGE CHROMATOGRAPHY 283 15.15.4.5 SEPARATION OF 237 NP BY SOLVENT EXTRACTION 283 15.15.5 ESSENTIALS OF NEPTUNIUM RADIOCHEMISTRY 283 15.16 PLUTONIUM 284 15.16.1 ISOTOPES OF PLUTONIUM 284 15.16.2 SOURCES OF PLUTONIUM 286 15.16.3 MEASUREMENT OF PLUTONIUM ISOTOPES 287 15.16.4 THE CHEMISTRY OF PLUTONIUM 289 15.16.4.1 OXIDATION STATES AND PLUTONIUM 289 15.16.4.2 DISPROPORTIONATION 290 15.16.4.3 HYDROLYSIS 292 15.16.4.4 REDOX BEHAVIOR 292 15.16.4.5 COMPLEX FORMATION 293 15.16.5 SEPARATION OF PLUTONIUM 293 15.16.6 TRACERS USED IN THE DETERMINATION OF PU ISOTOPES 294 15.16.7 SEPARATION BY SOLVENT EXTRACTION 295 15.16.8 SEPARATION OF PU BY ANION EXCHANGE CHROMATOGRAPHY 296 15.16.9 SEPARATION OF PU BY EXTRACTION CHROMATOGRAPHY 297 15.16.10 SEPARATION OF PU FROM LARGE VOLUMES OF WATER 298 15.16.11 AUTOMATED AND RAPID SEPARATION METHODS FOR PU DETERMINATION 300 15.16.12 ESSENTIALS OF PLUTONIUM RADIOCHEMISTRY 301 15.17 AMERICIUM AND CURIUM 302 15.17.1 SOURCES OF AMERICIUM AND CURIUM 302 15.17.2 NUDEAR CHARACTERISTICS AND MEASUREMENT OF 241 AM, 242 CM, 243 CM, AND 244 CM 303 15.17.3 CHEMISTRY OF AMERICIUM AND CURIUM 304 15.17.4 SEPARATION OF AMERICIUM AND CURIUM 306 15.17.4.1 SEPARATION OF AM AND CM BY ION EXCHANGE 307 15.17.4.2 SEPARATION OF AM AND CM BY EXTRACTION CHROMATOGRAPHY 307 15.17.4.3 SEPARATION OF AM AND CM BY SOLVENT EXTRACTION 307 15.17.4.4 SEPARATION OF LANTHANIDES FROM AM AND CM 308 15.17.5 ESSENTIALS OF AMERICIUM AND CURIUM RADIOCHEMISTRY 309 16 SPECIATION ANALYSIS 311 16.1 CONSIDERATIONS RELEVANT TO SPECIATION 311 16.2 SIGNIFICANCE OF SPECIATION 312 16.3 CATEGORIZATION OF SPECIATION ANALYZES 313 16.4 FRACTIONATION TECHNIQUES FOR ENVIRONMENTAL SAMPLES 314 16.4.1 PARTICLE FRACTIONATION IN WATER 314 16.4.2 FRACTIONATION OF AEROSOL PARTICLES 316 16.4.3 FRACTIONATION OF SOIL AND SEDIMENTS 317 IMAGE 10 XIV CONTENTS 16.5 ANALYSIS OF RADIONUDIDE AND ISOTOPE COMPOSITIONS 317 16.6 SPECTROSCOPIC SPECIATION METHODS 318 16.7 WET CHEMICAL METHODS 321 16.7.1 COPRECIPITATION 321 16.7.2 SOLVENT EXTRACTION 322 16.7.3 ION EXCHANGE CHROMATOGRAPHY 323 16.8 SEQUENTIAL EXTRACTIONS 324 16.9 COMPUTATIONAL SPECIATION METHODS 326 16.10 CHARACTERIZATION OF RADIOACTIVE PARTICLES 329 16.10.1 IDENTIFICATION AND ISOLATION OF THE PARTICLES 330 16.10.2 SCANNING ELECTRON MICROSCOPIC ANALYSIS OF THE PARTICLES 330 16.10.3 GAMMA AND X-RAY ANALYSIS OF THE PARTICLES 331 16.10.4 SECONDARY ION MASS SPECTROMETRY ANALYSIS OF RADIOACTIVE PARTICLES 332 16.10.5 SYNCHROTRON-BASED X-RAY MICROANALYSES 332 16.10.6 POST-DISSOLUTION ANALYSIS OF PARTICLES 334 FURTHER READING 335 17 MEASUREMENT OF RADIONUCLIDES BY MASS SPECTROMETRY 337 17.1 INTRODUCTION 337 17.2 INDUCTIVELY COUPLED PLASMA MASS SPECTROMETRY (ICP-MS) 338 17.2.1 COMPONENTS AND OPERATION PRINCIPLES OF ICP-MS SYSTEMS 339 17.2.2 RESOLUTION AND ABUNDANCE SENSITIVITY 342 17.2.3 DYNAMIC COLLISION/REACTION CELLS 343 17.2.4 DETECTORS 344 17.2.5 DETECTION LIMITS 345 17.2.6 90 SR MEASUREMENT BY ICP-MS 346 17.2.7 99 TC MEASUREMENT BY ICP-MS 348 17.2.8 MEASUREMENT OF URANIUM AND THORIUM ISOTOPES BY ICP-MS 348 17.2.9 237 NP MEASUREMENT BY ICP-MS 349 17.2.10 MEASUREMENT OF PLUTONIUM ISOTOPES BY ICP-MS 349 17.3 ACCELERATOR MASS SPECTROMETRY (AMS) 350 17.3.1 COMPONENTS AND OPERATION OF AMS 350 17.3.2 14 C MEASUREMENT BY AMS 352 17.3.3 36 C1 MEASUREMENT BY AMS 353 17.3.4 41 CA MEASUREMENT BY AMS 353 17.3.5 63 NI AND 59 NI MEASUREMENT BY AMS 353 17.3.6 99 TC MEASUREMENT BY AMS 354 17.3.7 129 I MEASUREMENT BY AMS 355 17.3.8 MEASUREMENT OF PLUTONIUM ISOTOPES BY AMS 355 17.4 THERMAL IONIZATION MASS SPECTROMETRY (TIMS) 356 17.5 RESONANCE IONIZATION MASS SPECTROMETRY (RIMS) 358 17.6 ESSENTIALS OF THE MEASUREMENT OF RADIONUCLIDES BY MASS SPECTROMETRY 359 FURTHER READING 360 IMAGE 11 CONTENTS XV 18 SAMPLING AND SAMPLE PRETREATMENT FOR THE DETERMINATION OF RADIONUCLIDES 362 18.1 INTRODUCTION 362 18.2 AIR SAMPLING AND PRETREATMENT 362 18.2.1 SAMPLING AEROSOL PARTICLES 362 18.2.1.1 RADIOACTIVE AEROSOL PARTICLES 363 18.2.1.2 INTEGRAL AEROSOL PARTICLE SAMPLING 363 18.2.1.3 SIZE-SELECTIVE AEROSOL PARTICLE SAMPLING 365 18.2.1.4 PASSIVE AEROSOL PARTICLE SAMPLING 366 18.3 SAMPLING GASEOUS COMPONENTS 366 18.4 ATMOSPHERIC DEPOSITION SAMPLING 369 18.4.1 DRY/WET DEPOSITION SAMPLING 369 18.4.2 ION EXCHANGE COLLECTOR 370 18.5 WATER SAMPLING 372 18.5.1 SURFACE WATER SAMPLING 371 18.5.2 WATER CORE (DEPTH PROFILE) 372 18.5.3 PRECONCENTRATION OF RADIONUCLIDES FROM NATURAL WATERS 375 18.5.3.1 PRECONCENTRATION OF RADIOCESIUM ( 137 CS AND 134 CS) 375 18.5.3.2 PRECONCENTRATION OF PU, AM, NP, AND 99 TC 376 18.6 SEDIMENT SAMPLING AND PRETREATMENT 377 18.6.1 SURFACE SEDIMENT SAMPLING 377 18.6.2 SEDIMENT CORE SAMPLING 379 18.6.3 SEDIMENT PORE WATER SAMPLING 382 18.6.4 PRETREATMENT OF SEDIMENTS - STORAGE, DRYING, HOMOGENIZING 383 18.7 SOIL SAMPLING AND PRETREATMENT 384 18.7.1 PLANNING THE SAMPLING 384 18.7.2 SOIL CORE SAMPLING 385 18.7.3 TEMPLATE METHOD 387 18.7.4 TRENCH METHOD 387 18.7.5 PRETREATMENT OF SOIL SAMPLES 388 18.8 ESSENTIALS IN SAMPLING AND SAMPLE PRETREATMENT FOR RADIONUCLIDES 388 19 CHEMICAL CHANGES INDUCED BY RADIOACTIVE DECAY 392 19.1 AUTORADIOLYSIS 392 19.1.1 DISSOLVED GASES 392 19.1.2 WATER SOLUTIONS 392 19.1.3 ORGANIC COMPOUNDS LABELED WITH RADIONUDIDES 392 19.1.4 SOLID COMPOUNDS 393 19.2 TRANSMUTATION AND SUBSEQUENT CHEMICAL CHANGES 393 19.3 RECOIL - HOT ATOM CHEMISTRY 394 INDEX 397
any_adam_object	1
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spelling	Lehto, Jukka Verfasser (DE-588)142951366 aut Chemistry and analysis of radionuclides laboratory techniques and methodology Jukka Lehto and Xiaolin Hou Weinheim Wiley-VCH 2011 XIX, 406 S. Ill., graph. Darst., Kt. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Radionuklid (DE-588)4133541-7 gnd rswk-swf Radionuklid (DE-588)4133541-7 s DE-604 Hou, Xiaolin Verfasser (DE-588)142951447 aut X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3474349&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022478488&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lehto, Jukka Hou, Xiaolin Chemistry and analysis of radionuclides laboratory techniques and methodology Radionuklid (DE-588)4133541-7 gnd
subject_GND	(DE-588)4133541-7
title	Chemistry and analysis of radionuclides laboratory techniques and methodology
title_auth	Chemistry and analysis of radionuclides laboratory techniques and methodology
title_exact_search	Chemistry and analysis of radionuclides laboratory techniques and methodology
title_full	Chemistry and analysis of radionuclides laboratory techniques and methodology Jukka Lehto and Xiaolin Hou
title_fullStr	Chemistry and analysis of radionuclides laboratory techniques and methodology Jukka Lehto and Xiaolin Hou
title_full_unstemmed	Chemistry and analysis of radionuclides laboratory techniques and methodology Jukka Lehto and Xiaolin Hou
title_short	Chemistry and analysis of radionuclides
title_sort	chemistry and analysis of radionuclides laboratory techniques and methodology
title_sub	laboratory techniques and methodology
topic	Radionuklid (DE-588)4133541-7 gnd
topic_facet	Radionuklid
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