Mineral-water interface geochemistry:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Washington, DC
Mineralogical Soc. of America
1990
|
| Schriftenreihe: | Reviews in mineralogy
23 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVI, 603 S. zahlr. Ill. u. graph. Darst. |
| ISBN: | 0939950286 |
Internformat
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| 245 | 1 | 0 | |a Mineral-water interface geochemistry |c M. F. Hochella ... eds. |
| 246 | 1 | 3 | |a Mineral water interface geochemistry |
| 264 | 1 | |a Washington, DC |b Mineralogical Soc. of America |c 1990 | |
| 300 | |a XVI, 603 S. |b zahlr. Ill. u. graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
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Datensatz im Suchindex
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| adam_text | TABLE OF CONTENTS
Page
n Copyright; Additional Copies
iii Dedication
iv Foreword; Preface and Acknowledgments
Chapter 1 M. F. Hochella, Jr. A. F. White
MINERAL-WATER INTERFACE GEOCHEMISTRY: AN OVERVIEW
1 INTRODUCTION
3 THE IMPORTANCE OF MINERAL-WATER INTERFACE GEOCHEMISTRY
3 Metals in aquatic systems
4 Ore deposit formation
4 Sorption-concentration of ore metals
6 Hydrothermal leaching as a metal source for ore
6 Low-temperature chemical weathering
9 A Review of This Book
9 Atomistic approaches
10 Adsorption
12 Precipitation and dissolution
13 Oxidation-reduction reactions
15 ACKNOWLEDGMENTS
15 REFERENCES
Chapter 2 A. C. Lasaga
ATOMIC TREATMENT OF MINERAL-WATER SURFACE REACTIONS
17 INTRODUCTION
23 Definition and measurement of surfaces - crystal habits
26 SURFACE TOPOGRAPHY AND KINETICS
31 REACTION MECHANISMS AND TRANSITION STATE THEORY
36 Application of TST to quartz dissolution
39 AB INJTIO METHODS IN MINERAL SURFACE REACTIONS
39 Ab initio theory
43 Ab initio studies of adsorption
56 Ab initio studies of mechanisms of water-rock kinetics
57 Transition state of the hydrolysis reaction
59 MOLECULAR DYNAMICS METHODS IN SURFACE STUDIES
63 Applications to surfaces
70 MONTE CARLO METHODS IN SURFACE STUDIES
80 REFERENCES
Chapter 3 M. F. Hochella, Jr.
Atomic structure, microtopography, Composition,
and reactivity of mineral surfaces
87 introduction
87 Experimental Techniques
88 Spectroscopies for determining surface composition
88 X-ray photoelectron spectroscopy (XPS)
89 Auger electron spectroscopy (AES)
90 Secondary ion mass spectroscopy (SIMS)
90 Surface analysis by laser ionization (SALI)
vi
90 Resonant ionization mass spectroscopy (RIMS)
90 Rutherford backscattering (RBS)
92 Resonant nuclear reaction (RNR) analysis
92 Scanning tunneling spectroscopy (STS)
93 Microscopies for determining surface microtopography
93 Optical methods
94 Scanning electron microscopy (SEM)
94 Transmission electron microscopy (JEM)
94 Scanning tunneling microscopy (STM)
95 Atomic force microscopy (AFM)
95 Tools for determining surface structure
95 Low energy electron diffraction (LEED)
96 Scanning tunneling microscopy (STM)
96 Atomic force microscopy (AFM)
97 Mineral Surface Composition
97 Adventitious modification of mineral surfaces
98 Geochemically modified mineral surface compositions
98 Sorption modification
99 Detachment modification
99 Redox modification
101 Compositional inhomogeneities
103 MINERAL SURFACE MICROTOPOGRAPHY
103 Microtopography models
103 Growth surfaces
105 Cleavage surfaces
105 Dissolution surfaces
108 MINERAL SURFACE ATOMIC STRUCTURE
108 General description of surface atomic structure
108 Surface structures in vacuum
109 Adsorption-induced surface structural modification
109 Structure of various mineral surfaces
111 Galena {001}
111 Hematite {001}
113 Rutile {110}
113 Olivine{010}
113 Albite{010}
116 CalciteflOl}
116 Reactivity of Surfaces
116 Some general concepts concerning surface reaction
116 The two-dimensional phase approximation
117 Heterogeneous (surface) catalysis
117 Examples of the effect of surface microtopography on reactivity
117 Carbon monoxide dissociation on Pt
117 Ethylene decomposition on various metals
119 Adsorption of gases on metals
119 Dissolution of minerals
120 235U sorption on sheet silicates
120 Examples of the effect of surface composition on reactivity
120 Bonding modifiers on the surfaces of catalysts
121 Dissolution rates across the plagioclase series
122 Examples of the effect of surface atomic structure on reactivity
122 Catalytic reactions on single crystal melts
122 Mineral and glass dissolution reactions
123 Sorption reactions on minerals
123 Surface reactivity observed atom by atom
126 CONCLUSIONS
128 ACKNOWLEDGMENTS
128 REFERENCES
Chapter 4 G- A- Parks
Surface energy and adsorption at mineral/water
interfaces: an introduction
133 Introduction
133 particle Size, Shape, and Surface Area
135 thermodynamics
135 Surface free energy
135 Gibbs1 definition of surface excess properties: the dividing surface
137 Contribution of surfaces and interfaces to thermodynamic criteria of
equilibrium
137 The Laplace (or Young-Laplace) equation: Curved surfaces imply a
pressure gradient
138 The Kelvin effect: Equilibrium constants depend on As
139 The Kelvin equation and vapor pressures
140 The Freundlich-Ostwald equation
141 The Gibbs equation: Adsorption reduces surface free energy
142 REACTIONS WITH WATER
142 Fracture surfaces
142 Hydroxylation
142 High field gradients enhance dissociation of electrolytes
143 Hydration
146 Immersion, surface ionization, and electrified interfaces
147 Surface charge
147 Origins of charge
149 Electrified interfaces
150 SORPTION: REACTIONS WITH AQUEOUS SOLUTES
150 pH and ionic strength dependence
152 Non-specific or physical adsorption
152 Concentration dependence
153 Specific or chemical adsorption
154 Concentration dependence
157 Hydrolysis, polymerization, and precipitation
158 Competition and synergism between adsorbate and complexing
ligands
158 Identifying sorption reactions: Clues to the composition and
structure of surface complexes
159 Surface charge
162 Proton stoichiometry
162 The last analysis
163 Surface and Interfacial Free Energies of Quartz
163 Fracture surface energy
165 APPLICATIONS
165 Fracture and crack propagation
167 Ostwald ripening and the Ostwald step rule
168 Earthquake prediction
169 ACKNOWLEDGMENTS
169 REFERENCES
Chapter 5 J. A. Davis and D. B. Kent
surface complexation modeling in aqueous
Geochemistry
177 introduction
178 Surface Functional Groups
178 Surface functional groups and mineral types
179 Oxides and aluminosilicates without permanent charge
179 Types of surface hydroxyl groups
179 Density of surface hydroxyl groups
183 Site density determined by adsorption
184 Organic matter
184 Minerals with permanent structural charge
184 Phyllosilicate minerals
185 Kaolinite
185 Smectites, vermiculites, and illitic micas
187 Manganese oxides
187 Carbonate minerals
188 Sulfide minerals
189 Surface area and porosity
189 Physical methods
190 Gas adsorption
190 Adsorption isotherms on minerals
192 BET analysis
192 Problems caused by microporosity
193 Low surface area materials
193 Evaluation of microporosity
195 Surface area of clay minerals and soils
197 ADSORPTION OF IONS AT HYDROUS OXIDE SURFACES IN WATER
197 Adsorption of cations
199 Adsorption of anions
199 Surface site heterogeneity and competitive adsorption of ions
202 Kinetics of sorption reactions
203 Reversibility of sorption processes
204 Effect of solution speciation on ion adsorption
204 Adsorption of hydrophobic molecules
204 the Electrified Mineral-Water Interface
204 Definition of mineral surface charge
205 Classical electrical double layer models
206 The electrical double layer at oxide surfaces
206 The Nernst equation and proton surface charge
209 The zero surface charge condition
211 Zeta potential
212 Early developments of surface coordination theory
213 MODELS FOR ADSORPTION-DESORPTION EQUILIBRIUM
213 Empirical adsorption models
214 Distribution coefficients
214 Langmuir isotherm
215 Freundlich and other isotherms
215 General partitioning equation
217 Surface complexation models
218 Properties of solvent water at the interface
218 Surface acidity of hydrous oxides
219 Surface coordination reactions
219 The Constant Capacitance Model (CCM)
220 The Diffuse Double Layer Model (DDLM)
222 Triple Layer Model (TLM)
225 Four layer models
225 The non-electrostatic surface complexation model
225 Proton stoichiometry in surface complexation reactions
226 Parameter estimation
228 Comparison of the performance of surface complexation models
230 APPLICATIONS IN AQUEOUS GEOCHEMISTRY
231 Surface area and functional groups of soils and sediments
233 Observations of sorption phenomena in complex mineral-water systems
233 Effect of aqueous composition
234 Identification of dominant sorptive mineral components in composite
materials
235 Interactive effects of mineral phases
236 Special problems in sorption experiments with natural composite
materials
236 The electrical double layer of soils and sediments
237 Use of empirical adsorption models for soils and sediments
237 Distribution coefficients
238 Modeling based on the partitioning equation
239 Use of surface complexation models with soils and sediments
239 Modeling with the non-electrostatic SCM
240 Modeling with electrical double layer corrections
240 SCM modeling to dominant adsorptive components of composite
materials
242 Guidelines for surface complexation modeling with natural composite
materials
243 CONCLUDING REMARKS
245 ACKNOWLEDGMENTS
245 LIST OF TERMS AND SYMBOLS
246 APPENDIX A. DETAILS OF SURFACE AREA MEASUREMENT
246 Gas adsorption
246 Sample drying
247 t-and as plots
247 Adsorption from solution
248 REFERENCES
Chapter 6 G. Spositt
MOLECULAR MODELS OF ION ADSORPTION
ON MINERAL SURFACES
261 INTRODUCTION
262 Diffuse double Layer Models
262 Modified Gouy-Chapman theory
264 Accuracy of MGC theory
266 Counterion condensation
267 SURFACE COORDINATION MODELS
267 Types of surface coordination
269 The Bragg-Williams approximation
271 Surface complexation equilibria
272 APPLICATIONS
272 Proton adsorption
274 Metal cation adsorption
276 Coion exclusion
278 Concluding remarks
278 acknowledgments
278 references
Chapter 7 P. W. Schindlei
CO-ADSORPTION OF METAL IONS AND ORGANIC LlGANDS:
FORMATION OF TERNARY SURFACE COMPLEXES
281 Introduction
282 Adsorption of organic compounds
282 Hydrophobie expulsion
283 Electrostatic attraction
285 Surface complexation
286 Adsorption of metal ions
286 Electrostatic attraction
287 How to distinguish between inner sphere and outer sphere complexes Co-adsorption of metal ions and organic ligands
288
289 Thermodynamic Stability
289 Conditional and intrinsic constants
291 Evaluating intrinsic stability constants
291 Studies at low surface coverage
291 Extrapolation techniques
292 Double layer techniques
292 Stability constants of ternary surface complexes
292 Definitions
293 Predictions from statistics
296 Experimental results
298 Charge effects
298 Ternary surface complexes with it-acceptor ligands
299 Spectroscopy
299 Methods
300 Results
300 The Role of Ternary surface complexes in nature and Technology
300 Effect of organic ligands upon the fate of trace metals in aquatic
environments
302 The structure of the clay-organic interface
304 Ternary surface complexes in froth flotation
304 Ternary surface complexes in heterogeneous redox reactions
305 ACKNOWLEDGMENTS
305 REFERENCES
Chapter 8 Gordon E. Brown, Jr.
Spectroscopic Studies of Chemisorption reaction
mechanisms at oxide-water interfaces
309 INTRODUCTION AND OVERVIEW
310 Chemisorption versus physiosorption
311 The need for molecular-level information about chemisorption reaction
mechanisms
313 The structure of clean and real surfaces
319 Overview of Structural Methods Providing Molecular-level
information About Chemisorbed Species
320 X-ray absorption spectroscopy (XAS)
324 Production of x-ray absorption spectra
328 XANES andpre-edge spectra
328 EXAFS spectra
329 Analysis of EXAFS spectra
333 Other in situ spectroscopic methods and selected applications
333 Magnetic resonance spectroscopies
335 FTIR and Raman spectroscopy
335 Mössbauer spectroscopy
336 XAS Studies of Chemisorption reaction Mechanisms at Solid/Liquid
Interfaces
337 CoOT) on Y-AI2O3 and TiÛ2 (rutile)
341 Co(ü) on kaolinite and a-SiO2 (quartz)
342 Co(II) on calcite
343 Pb(H) on Y-AI2Q3 and a-FeOOH (goethite)
343 Np(V) on a-FeOOH and U(VI) on ferric oxide-hydroxide gels
347 Se oxyanions on a-FeOOH
347 Other XAS studies of sorption complexes at solid/water or solid/air
interfaces
348 SEXAFS STUDIES OF MOLECULAR CHEMISORPTION AT SOLID/VACUUM
INTERFACES
352 CONCLUSIONS AND OUTLOOK
353 ACKNOWLEDGMENTS
353 REFERENCES
Chapter 9 J.-W. Zhang G. H. Nancollas
mechanisms of growth and dissolution
of Sparingly Soluble Salts
365 INTRODUCTION
365 THE DRIVING FORCES FOR GROWTH AND DISSOLUTION
365 Definition
368 Calculation
369 NUCLEATION
372 THE CRYSTAL-SOLUTION INTERFACE
372 Kink densities
372 Steps from surface nucleation
373 Steps from screw dislocations
375 Crystal Growth rate laws
375 Volume diffusion
375 Adsorption and surface diffusion
376 Integration
377 Surface nucleation
378 Combined mechanisms
379 crystal dissolution rate laws
379 Influence of Additives on the Rates
379 Inhibitory effect of additives
380 Inactivation of kink sites
380 Retardation of step movement
381 Reduction of the concentration of growth units on a terrace
381 Dual effects of additives
382 EXPERIMENTAL METHODS
382 Experimental approaches
382 Free drift method
382 Potenüostaüc method
382 Constant composition method
383 Titrant composition for CC experiments
383 Systems containing only lattice ions
384 Systems involving supporting electrolytes
384 Systems involving acid or base addition
385 Instrumentation for CC method
387 Rate determination
387 EXPERIMENTAL DETERMINATION OF REACTION MECHANISMS
389 GROWTH AND DISSOLUTION OF SOME ALKALINE EARTH SALTS
389 Calcium phosphate
391 Alkaline earth fluoride
392 Calcium carbonate
392 ACKNOWLEDGMENT
393 REFERENCES
Xll
Chapter 10 W. H. Casey B. Bunker
LEACHING OF MINERAL AND GLASS SURFACES
DURING DISSOLUTION
397 introduction
398 The Structure of Mdœd-Oxdde Minerals and Glasses
398 The simplified structure of oxide minerals and glasses
399 Reactive and unreactive sites in a structure
404 The effect of temperature
404 GENERAL REACTION MECHANISMS
405 Hydration
407 Ion-exchange reactions
408 Hydrolysis reactions
412 The pH-dependence of leaching rates
414 EXAMPLES
414 Phosphate oxynitride glass
416 Plagioclase
417 Beryl
419 PROPERTIES OF THE LEACHED LAYER
419 Changes in cation coordination with leaching
421 Repolymerization of hydroxyl groups subsequent to leaching
421 Crazing and spallation of the leached layer
423 Chemisorption in the leaching layer
423 CONCLUSIONS
424 ACKNOWLEDGMENTS
424 REFERENCES
Chapter 11 J. G. Hering W. Stumm
Oxidation and Reductive Dissolution of Minerals
427 INTRODUCTION
428 Objectives
428 BACKGROUND
428 Redox processes in natural systems
428 Major redox couples and the distribution of redox-active species
431 Specific reductants and oxidants
434 Role of the biota
434 Reductive and oxidative dissolution of minerals
434 Some theoretical background
434 Dependence of the rate of surface-controlled mineral dissolution on
surface structure
435 Surface-controlled dissolution kinetics and the surface complexation
model
437 Reactivity of surface species and redox reactions at mineral surfaces
439 Application of surface complexation model to surface-controlled
dissolution: model assumptions
440 Application of the surface complexation model: a generalized rate
law for dissolution
440 Application of the surface complexation model: a descriptive
example
443 Catalysis of redox reactions by mineral surfaces
445 Case Studies
445 Reductive dissolution of iron oxides
445 Reaction with a reductant
447 Reaction with a reduced metal and a ligand
449 Reaction with a (non-metal) reductant and a ligand
452 Reductive dissolution of manganese oxides
452 Oxidative dissolution of pyrite
453 Oxidative dissolution of uranium(IV) oxides
453 Oxidative dissolution of iron (H) silicates
454 Discussion
454 Applicability and limitations of the surface complexation model
454 Laboratory studies
454 Applicability to field observations
455 Dissolution and its reverse: precipitation
456 Some geochemical implications
458 concluding remarks
459 acknowledgments
459 References
Chapter 12 A. F. White
HETEROGENEOUS ELECTROCHEMICAL REACTIONS ASSOCIATED
WITH OXIDATION OF FERROUS OXIDE AND SILICATE SURFACES
467 Introduction
469 Solid state electrochemistry
471 oxidation of Ferrous-Containing Oxides
472 Solid state electron transfer
472 Solid state oxidation
473 Oxide electrode processes
480 Heterogeneous redox reactions
480 Reductive dissolution involving transition metals
482 Oxidative electron transfer
483 Oxidation of Ferrous Ortho- and Chain silicates
484 Solid state electron transfer
485 Solid state oxidation
487 Dissolution processes
487 Coupled electron-cation transport
489 Dissolved oxygen reduction
491 Actinide reduction on olivine and basalt
491 Nitrate reduction
493 Oxidation of Micas
494 Oxidation of structural Fe
495 Dissolution
496 Heterogeneous redox reactions
498 Reduction of transition metals
498 Reduction oforganics
500 Oxidation of Clay Minerals
500 Structural oxidation
501 Dissolution
501 Heterogeneous reduction reactions
501 Reduction of transition metals
503 CONCLUSIONS
505 ACKNOWLEDGMENTS
505 REFERENCES
XIV
Chapter 13 G. M. Bancroft M. M. Hyland
Spectroscopic Studies of adsorption/Reduction
reactions of aqueous metal complexes
on Sulphide Surfaces
511 INTRODUCTION
513 BRIEF REVIEW OF LABORATORY STUDIES
514 SURFACE STUDIES OF METAL COMPLEX/SULPHIDE SYSTEMS
514 An introduction to X-ray photoelectron spectroscopy (XPS)
520 An introduction to Auger electron spectroscopy (AES) and a comparison of
techniques
522 The chemistry of the surface from XPS and Raman spectroscopies
535 Spatial distribution of metal species from SEM and Auger studies
542 Other techniques for obtaining surface information
546 Summary of mechanisms
552 GEOCHEMICAL IMPLICATIONS OF THE LABORATORY STUDIES
552 The nature of Au in natural sulphides from SEM, SIMS, and Mössbauer
studies
555 ACKNOWLEDGMENTS
555 REFERENCES
Chapter 14 T. D. Waite
Photo-redox Processes at the Mineral-Water Interface
559 INTRODUCTION
560 PHOTO-REDOX PROCESSES INVOLVING ABSORPTION BY MINERALS
560 Electronic structure and optical properties of minerals
560 Molecular orbital theory
563 Band theory
566 Semiconducting minerals
568 Effects of illumination
568 Charge carrier mobility
569 Interfacial electron transfer
569 Surface states
571 Space charge layer, band bending and electron transfer
576 Factors influencing semiconductor reactivity
576 Morphology
577 Size
579 Substitutional doping
579 Surface modification
580 Attachment to supports
580 Intercalation of foreign species into semiconductors
581 Applications of geochemical significance
581 Photodissolution of semiconducting minerals
584 Hydrogen peroxide production
586 Degradation of organic and inorganic pollutants
587 photo-redox processes involving interfacial charge transfer to
the Mineral Substrate
587 Charge injection into semiconductors
588 Charge transfer via adsorbed chromophores
589 Charge transfer via photoactive surface complexes
XV
590 PHOTO-REDOX PROCESSES INVOLVING CHROMOPHORES ADSORBED ON OR
INCORPORATED IN MINERAL SUBSTRATES
591 Photoprocesses of chromophores adsorbed to silica and clay surfaces
591 Photoprocesses on paniculate silica and silica gel
593 Photoprocesses on clay minerals
593 Photoprocesses in zeolites
593 General features of zeolites
594 Photochemistry of inorganic ions exchanged into zeolites
595 Photochemistry of organic molecules in zeolites
595 CONCLUSIONS
597 REFERENCES
XVÏ
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV004223102 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T16:10:03Z |
| institution | BVB |
| isbn | 0939950286 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-002629346 |
| oclc_num | 243444367 |
| open_access_boolean | |
| owner | DE-12 DE-703 DE-355 DE-BY-UBR DE-91 DE-BY-TUM DE-29 DE-20 DE-83 DE-188 DE-578 DE-M490 DE-19 DE-BY-UBM |
| owner_facet | DE-12 DE-703 DE-355 DE-BY-UBR DE-91 DE-BY-TUM DE-29 DE-20 DE-83 DE-188 DE-578 DE-M490 DE-19 DE-BY-UBM |
| physical | XVI, 603 S. zahlr. Ill. u. graph. Darst. |
| publishDate | 1990 |
| publishDateSearch | 1990 |
| publishDateSort | 1990 |
| publisher | Mineralogical Soc. of America |
| record_format | marc |
| series | Reviews in mineralogy |
| series2 | Reviews in mineralogy |
| spelling | Mineral-water interface geochemistry M. F. Hochella ... eds. Mineral water interface geochemistry Washington, DC Mineralogical Soc. of America 1990 XVI, 603 S. zahlr. Ill. u. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Reviews in mineralogy 23 Wasser (DE-588)4064689-0 gnd rswk-swf Geochemie (DE-588)4020198-3 gnd rswk-swf Mineralwasser (DE-588)4114605-0 gnd rswk-swf Mineral (DE-588)4074836-4 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Mineral (DE-588)4074836-4 s Wasser (DE-588)4064689-0 s Geochemie (DE-588)4020198-3 s DE-604 Mineralwasser (DE-588)4114605-0 s Hochella, Michael F. Sonstige oth Reviews in mineralogy 23 (DE-604)BV000002349 23 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002629346&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mineral-water interface geochemistry Reviews in mineralogy Wasser (DE-588)4064689-0 gnd Geochemie (DE-588)4020198-3 gnd Mineralwasser (DE-588)4114605-0 gnd Mineral (DE-588)4074836-4 gnd |
| subject_GND | (DE-588)4064689-0 (DE-588)4020198-3 (DE-588)4114605-0 (DE-588)4074836-4 (DE-588)4143413-4 |
| title | Mineral-water interface geochemistry |
| title_alt | Mineral water interface geochemistry |
| title_auth | Mineral-water interface geochemistry |
| title_exact_search | Mineral-water interface geochemistry |
| title_full | Mineral-water interface geochemistry M. F. Hochella ... eds. |
| title_fullStr | Mineral-water interface geochemistry M. F. Hochella ... eds. |
| title_full_unstemmed | Mineral-water interface geochemistry M. F. Hochella ... eds. |
| title_short | Mineral-water interface geochemistry |
| title_sort | mineral water interface geochemistry |
| topic | Wasser (DE-588)4064689-0 gnd Geochemie (DE-588)4020198-3 gnd Mineralwasser (DE-588)4114605-0 gnd Mineral (DE-588)4074836-4 gnd |
| topic_facet | Wasser Geochemie Mineralwasser Mineral Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002629346&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000002349 |
| work_keys_str_mv | AT hochellamichaelf mineralwaterinterfacegeochemistry |