Verfügbarkeit: Monolithic silicas in separation science

Monolithic silicas in separation science: concepts, syntheses, characterization, modeling and applications

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Bibliographische Detailangaben
Weitere Verfasser:	Unger, Klaus K. 1936-2020 (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2011
Schlagworte:	HPLC Trennverfahren Siliciumdioxid Monolith
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVIII, 344 S. Ill., graph. Darst. 240 mm x 170 mm
ISBN:	9783527325757

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XIII LIST OF CONTRIBUTORS XV 1 THE BASIC IDEA AND THE DRIVERS 1 NOBUO TANAKA AND KLAUS K. UNGER 1.1 DEFINITIONS 1 1.2 MONOLITHS AS HETEROGENEOUS CATALYSTS 1 1.3 MONOLITHS IN CHROMATOGRAPHIE SEPARATIONS 2 1.4 CONCLUSION AND PERSPECTIVES 4 REFERENCES 5 PART ONE PREPARATION 9 2 SYNTHESIS CONCEPTS AND PREPARATION OF SILICA MONOLITHS 11 KAZUKI NAKANISHI 2.1 INTRODUCTION 11 2.2 BACKGROUND AND CONCEPTS 12 2.2.1 SOL-GEL REACTIONS OF SILICA 12 2.2.2 POLYMERIZATION-INDUCED PHASE SEPARATION 14 2.2.3 DOMAIN FORMATION BY PHASE SEPARATION 35 2.2.4 ARRESTING TRANSIENT STRUCTURE WITHIN A SOLIDIFYING NETWORK 17 2.2.5 MACROPORE CONTROL 19 2.2.6 MESOPORE CONTROL 21 2.3 SYNTHESIS OF SILICA MONOLITHS 21 2.3.1 SILICA SOURCE AND CATALYST 21 2.3.2 ADDITIVES TO INDUCE PHASE SEPARATION 22 2.3.3 PREPARATION PROCEDURE FOR BULK MONOLITH 24 2.3.3.1 DISSOLUTION OF PEO IN ACIDIC WATER 25 2.3.3.2 ADDITION OFTMOS FOR HYDROLYSIS 25 2.3.3.3 TRANSFERRING THE SOLUTION TO A MOLD 25 2.3.3.4 GELATION AND AGING 26 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1005391335 DIGITALISIERT DURCH IMAGE 2 VI I CONTENTS 2.3.4 PREPARATION PROCEDURE FOR CAPILLARY MONOLITH 26 2.3.5 AGING OF WET MONOLITH TO TAILOR MESOPORES 27 2.3.6 DRYING AND HEAT TREATMENT 28 2.3.7 MISCELLANEOUS FACTORS FOR BETTER REPRODUCIBILITY 28 2.4 MONOLITHIC COLUMNS PREPARED IN THE LABORATORY 29 2.4.1 EPOXY-CLAD COLUMNS 29 2.4.2 CAPILLARY COLUMNS 30 2.4.3 OTHER TYPES 31 2.5 SUMMARY 31 REFERENCES 31 3 PREPARATION AND PROPERTIES OF VARIOUS TYPES OF MONOLITHIC SILICA STATIONARY PHASES FOR REVERSED-PHASE, HYDROPHILIC INTERACTION, AND ION-EXCHANGE CHROMATOGRAPHY BASED ON POLYMER-COATED MATERIALS 35 OSCAR NUNEZ AND TOHRU IKEGAMI 3.1 STATIONARY PHASES FOR REVERSED-PHASE CHROMATOGRAPHY 35 3.2 STATIONARY PHASES FOR HYDROPHILIC-INTERACTION CHROMATOGRAPHY SEPARATIONS 38 3.3 STATIONARY PHASES FOR ION-EXCHANGE SEPARATIONS 42 3.4 ADVANTAGES OF POLYMER-COATED MONOLITHIC SILICA COLUMNS 43 REFERENCES 45 PART TWO CHARACTERIZATION AND MODELING 47 4 CHARACTERIZATION OF THE PORE STRUCTURE OF MONOLITHIC SILICAS 49 ROMAS SKUDAS, MATTHIAS THOMMES, AND KLAUS K. UNGER 4.1 MONOLITHIC SILICAS 49 4.2 GENERAL ASPECTS DESCRIBING POROUS MATERIALS 50 4.3 CHARACTERIZATION METHODS OF THE PORE STRUCTURE OF MONOLITHIC SILICAS 53 4.3.1 MERCURY INTRUSION-EXTRUSION 53 4.3.2 INVERSE SIZE-EXCLUSION CHROMATOGRAPHY 60 4.3.3 NITROGEN SORPTION 64 4.3.4 LIQUID PERMEATION 67 4.3.5 MICROSCOPY AND IMAGE ANALYSIS 70 4.4 COMPARISON OF THE SILICA MONOLITH MESOPORE-CHARACTERIZATION DATA 73 4.5 COMPARISON OF THE SILICA MONOLITH FLOW-THROUGH PORE- CHARACTERIZATION DATA 74 REFERENCES 75 5 MICROSCOPIC CHARACTERIZATIONS 81 HARUKO SAITO, KAZUYOSHI KANAMORI, AND KAZUKI NAKANISHI 5.1 INTRODUCTION 81 IMAGE 3 CONTENTS VII 5.2 PREPARATION OF MACROPOROUS SILICA MONOLITH 82 5.3 LASER SCANNING CONFOCAL MICROSCOPE OBSERVATION 83 5.4 IMAGE PROCESSING 84 5.5 FUNDAMENTAL PARAMETERS 84 5.5.1 POROSITY 85 5.5.2 SURFACE AREA 86 5.5.3 CHARACTERISTIC WAVELENGTH 86 5.5.4 MACROPORE SIZE AND SKELETON THICKNESS 89 5.5.5 CHORD LENGTH 90 5.5.6 MEAN CURVATURE AND GAUSSIAN CURVATURE 91 5.5.7 CURVATURE DISTRIBUTIONS 93 5.5.7.1 COMPARISON BETWEEN DIFFERENT POROSITIES 93 5.5.7.2 COMPARISON BETWEEN DIFFERENT MACROPORE SIZES 94 5.6 THREE-DIMENSIONAL OBSERVATION OF DEFORMATIONS IN CONFINED GEOMETRY 95 5.6.1 SYNTHESIS AND CHARACTERS OF ORGANIC-INORGANIC HYBRID MONOLITHS 95 5.6.2 DEFORMED MACROPOROUS STRUCTURES BETWEEN PLATES IN MF SYSTEM 96 5.6.3 DEFORMED MACROPOROUS STRUCTURES BETWEEN PLATES IN MM SYSTEM 99 REFERENCES 202 6 MODELING CHROMATOGRAPHIE BAND BROADENING IN MONOLITHIC COLUMNS 105 FREDERIK DETOBEL AND CERT DESMET 6.1 INTRODUCTION 105 6.2 THE GENERAL PLATE-HEIGHT MODEL 106 6.2.1 MEANING OF K", U AND KP 107 6.2.2 EXPRESSIONS FOR H AX 108 6.2.3 ESTIMATION OF D MO AND D SKEL 109 6.2.4 EXPRESSIONS FOR FC FTP AND FE FSKEL 110 6.2.5 SELECTION OF THE CHARACTERISTIC REFERENCE LENGTHS 111 6.2.6 COMPLETE PLATE-HEIGHT EQUATION 113 6.3 USE OF THE GENERAL PLATE-HEIGHT MODEL TO PREDICT BAND BROADENING IN TSM STRUCTURES 114 6.3.1 NONPOROUS SKELETON CASE 115 6.3.2 POROUS SKELETON CASE 116 6.4 CONCLUSION 120 ACKNOWLEDGMENTS 121 SYMBOLS 121 GREEK SYMBOLS 122 SUBSCRIPTS 122 REFERENCES 122 IMAGE 4 VIII CONTENTS 7 COMPARISON OF THE PERFORMANCE OF PARTICLE-PACKED AND MONOLITHIC COLUMNS IN HIGH-PERFORMANCE LIQUID CHROMATOGRAPHY 127 CEORGES CUIOCHON 7.1 INTRODUCTION 127 7.2 BASIC COLUMNS PROPERTIES 128 7.2.1 TOTAL, EXTERNAL AND INTERNAL COLUMN POROSITY 129 7.2.1.1 DEFINITION OF THE TOTAL COLUMN POROSITY 129 7.2.1.2 MEASUREMENT OF THE TOTAL COLUMN POROSITY 129 7.2.1.3 DEFINITIONS OF THE COLUMN EXTERNAL AND INTERNAL POROSITIES 131 7.2.1.4 MEASUREMENT OF THE COLUMN EXTERNAL AND INTERNAL POROSITIES 131 7.2.2 COLUMN PERMEABILITY 132 7.2.2.1 PERMEABILITY OF PACKED COLUMNS 132 7.2.2.2 PERMEABILITY OF MONOLITHIC COLUMNS 132 7.2.3 COLUMN EFFICIENCY 135 7.2.3.1 THE HETP EQUATION 136 7.2.3.2 REDUCED HETP AND REDUCED VELOCITY 137 7.2.4 COLUMN IMPEDANCE 137 7.3 COMPARISON OF THE THROUGH-PORE STRUCTURES AND RELATED PROPERTIES 138 7.3.1 POROSITY AND THROUGH-PORE STRUCTURE 138 7.3.1.1 EXTERNAL POROSITY OF PACKED AND MONOLITHIC COLUMNS 138 7.3.1.2 IMPORTANCE OF THE SIZE OF THE THROUGH-PORES 139 7.3.1.3 AVERAGE SIZE OF THE THROUGH-PORES IN PACKED COLUMNS 139 7.3.1.4 AVERAGE SIZE OF THE THROUGH-PORES OF MONOLITHIC COLUMNS 140 7.3.2 COLUMN PERMEABILITY 140 7.3.2.1 PERMEABILITY OF PACKED COLUMNS 140 7.3.2.2 PERMEABILITY OF MONOLITHIC COLUMNS 140 7.3.3 COLUMN RADIAL HOMOGENEITY 142 7.3.3.1 RADIAL HETEROGENEITY OF PACKED COLUMNS 142 7.3.3.2 RADIAL HETEROGENEITY OF MONOLITHIC COLUMNS 143 7.3.3.3 CONSEQUENCES OF COLUMN RADIAL HETEROGENEITY 144 7.4 THERMODYNAMIC PROPERTIES 144 7.4.1 RETENTION 144 7.4.1.1 RETENTION FACTORS 145 7.4.1.2 REPRODUCIBILITY OF RETENTION FACTORS AND ISOTHERMS 146 7.4.2 COLUMN LOADABILITY 146 7.5 KINETIC PROPERTIES AND COLUMN EFFICIENCY 147 7.5.1 AXIAL DISPERSION 147 7.5.2 MASS-TRANSFER KINETICS 148 7.5.3 COLUMN IMPEDANCE 150 7.5.4 KINETIC PROPERTIES 151 7.6 CONCLUSIONS 151 ACKNOWLEDGMENTS 153 IMAGE 5 CONTENTS IX SYMBOLS 153 GREEK SYMBOLS 154 REFERENCES 154 PART THREE APPLICATIONS 157 8 QUANTITATIVE STRUCTURE-RETENTION RELATIONSHIPS IN STUDIES OF MONOLITHIC MATERIALS 159 ROMAN KALISZAN AND MICHALJ. MARKUSZEWSKI 8.1 FUNDAMENTALS OF QUANTITATIVE STRUCTURE-RETENTION RELATIONSHIPS (QSRR) 159 8.2 QUANTITATIVE RELATIONSHIPS BETWEEN ANALYTE HYDROPHOBICITY AND RETENTION ON MONOLITHIC COLUMNS 163 8.3 QSRR BASED ON STRUCTURAL DESCRIPTORS FROM CALCULATION CHEMISTRY 166 8.4 LSER ON MONOLITHIC COLUMNS 269 8.5 CONCLUDING REMARKS 172 REFERENCES 272 9 PERFORMANCE OF SILICA MONOLITHS FOR BASIC COMPOUNDS. SILANOL ACTIVITY 173 DAVID V. MCCALLEY 9.1 INTRODUCTION 273 9.2 REPRODUCIBILITY OF COMMERCIAL MONOLITHS FOR ANALYSIS OF BASES 174 9.3 ACTIVITY OF MONOLITHS TOWARDS BASIC SOLUTES 275 9.4 CONTRIBUTION OF OVERLOAD TO PEAK SHAPES OF BASIC SOLUTES 180 9.5 VAN DEEMTER PLOTS FOR COMMERCIAL MONOLITHS 280 9.6 PERFORMANCE OF HYBRID CAPILLARY SILICA MONOLITHS FOR BASIC COMPOUNDS 183 9.7 CONCLUSIONS 286 REFERENCES 287 10 QUALITY CONTROL OF DRUGS 289 MOHAMMED TAHA, ABDELKAREM ABED, AND SAMI EL DEEB 10.1 INTRODUCTION 289 10.2 ANALYSIS OF PHARMACEUTICS 189 10.3 NATURAL PRODUCTS ANALYSIS 190 10.4 ANALYSIS SPEED AND PERFORMANCE 191 10.5 METHOD TRANSFER 193 10.6 SEPARATION OF COMPLEX MIXTURES 296 10.7 MONOLITH DERIVATIVES AND VERSATILE APPLICATION 198 10.8 SUMMARY AND CONCLUSIONS 201 REFERENCES 202 IMAGE 6 X\| CONTENTS 11 MONOLITHIC STATIONARY PHASES FOR FAST ION CHROMATOGRAPHY 207 PAVEL N. NESTERENKO AND PAUL R. HADDAD 11.1 FAST ION CHROMATOGRAPHY 207 11.2 HISTORICAL DEVELOPMENT OF FAST ION CHROMATOGRAPHY 207 11.3 3 ADVANTAGES OF THE BIMODAL POROUS STRUCTURE OF THE SILICA MONOLITH MATRIX 210 11.4 TYPE AND PROPERTIES OF SILICA MONOLITHIC COLUMNS USED IN IC 222 11.5 MODIFICATION OF SILICA MONOLITHS FOR IC SEPARATIONS 226 11.5.1 BARE-SILICA MONOLITHS AS ION EXCHANGERS 216 11.5.2 COATED REVERSED-PHASE SILICA MONOLITHIC ION-EXCHANGE COLUMNS 217 11.5.3 SILICA MONOLITHS WITH COVALENTLY BONDED ION-EXCHANGE GROUPS 221 11.6 OPERATIONAL PARAMETERS 221 11.7 ANALYTICAL APPLICATIONS 223 11.8 FUTURE WORK 225 REFERENCES 226 12 MONOLITHIC CHIRAL STATIONARY PHASES FOR LIQUID-PHASE ENANTIOSEPARATION TECHNIQUES 232 BEZHAN CHANKVETADZE 12.1 INTRODUCTION 232 12.2 ORGANIC MONOLITHIC MATERIALS FOR THE SEPARATION OF ENANTIOMERS 233 12.3 SILICA-BASED MONOLITHIC MATERIALS FOR THE SEPARATION OF ENANTIOMERS 235 12.3.1 MONOLITHIC SILICA COLUMNS WITH PHYSICALLY ADSORBED CHIRAL SELECTOR 236 12.3.2 MONOLITHIC SILICA COLUMNS WITH COVALENTLY ATTACHED CHIRAL SELECTOR 237 12.4 SUMMARY OF THE PRESENT STATE-OF-THE-ART AND PROBLEMS TO BE SOLVED IN THE FUTURE 245 REFERENCES 245 13 HIGH-SPEED AND HIGH-EFFICIENCY SEPARATIONS BY UTILIZING MONOLITHIC SILICA CAPILLARY COLUMNS 249 TAKESHI HARA, KOSUKE MIYAMOTO, SATOSHI MAKINO, SHOHEI MIWA, TOHRU IKEGAMI, MASAYOSHI OHIRA, AND NOBUO TANAKA 13.1 INTRODUCTION 249 13.2 PREPARATION OF MONOLITHIC SILICA CAPILLARY COLUMNS 250 13.3 PROPERTIES OF MONOLITHIC SILICA CAPILLARY COLUMNS 252 13.4 MONOLITHIC SILICA CAPILLARY COLUMNS FOR HIGH-EFFICIENCY SEPARATIONS 254 13.4.1 PERFORMANCE OF LONG MONOLITHIC SILICA CAPILLARY COLUMNS 254 13.4.2 EXAMPLES OF HIGH-EFFICIENCY SEPARATIONS 256 13.4.2.1 ISOCRATIC MODE 256 13.4.3 PERFORMANCE OF LONG CAPILLARY COLUMNS FOR PEPTIDES IN GRADIENT MODE 259 IMAGE 7 CONTENTS XI 13.5 MONOLITHIC SILICA CAPILLARY COLUMNS FOR HIGH-SPEED SEPARATIONS 261 13.5.1 MONOLITHIC SILICA COLUMNS HAVING INCREASED PHASE RATIOS 261 13.5.2 PERFORMANCE OF HIGH-SPEED MONOLITHIC SILICA COLUMNS 265 13.5.3 COMPARISON OF PERFORMANCE WITH A PARTICLE-PACKED COLUMN 266 13.6 FUTURE CONSIDERATIONS 267 13.7 CONCLUSION 268 REFERENCES 269 14 SILICA MONOLITHIC COLUMNS AND MASS SPECTROMETRY 273 KEITH ASHMAN 14.1 INTRODUCTION 273 14.2 OFFLINE CHROMATOGRAPHY, LC M ALDI MS 274 14.3 ONLINE ESI LC/MS/MS FOR PROTEOMICS AND SELECTED REACTION MONITORING (SRM) 275 14.4 ONLINE REACTORS AND AFFINITY COLUMNS COUPLED TO MASS SPECTROMETRY 278 14.5 CONCLUSION 279 REFERENCES 280 15 SILICA MONOLITHS FOR SMALL-SCALE PURIFICATION OF DRUG-DISCOVERY COMPOUNDS 285 ALFONSO ESPADA, CRISTINA ANTA, AND MANUEL MOLINA-MARTIN 15.1 INTRODUCTION 285 15.2 INSTRUMENTAL AND OPERATING CONSIDERATIONS 286 15.2.1 ANALYTICAL CONDITIONS 286 15.2.2 PREPARATIVE CONDITIONS 287 15.3 PREPARATIVE SEPARATIONS AND SAMPLE LOADING 288 15.3.1 SEMIPREPARATIVE MONOLITHIC 10 X 100 MM COLUMN 288 15.3.2 PREPARATIVE MONOLITHIC 25 X 100 MM COLUMN 290 15.4 PURIFICATION OF DRUG-DISCOVERY COMPOUNDS 292 15.5 CONCLUSIONS 294 ACKNOWLEDGMENT 295 REFERENCES 295 16 MONOLITHIC SILICA COLUMNS IN MULTIDIMENSIONAL LC-MS FOR PROTEOMICS AND PEPTIDOMICS 297 EGIDIJUS MACHTEJEVAS AND EGLE MACHTEJEVIENE 16.1 INTRODUCTION 297 16.2 LIQUID CHROMATOGRAPHY AS A TOOL BOX FOR PROTEOMICS 300 16.3 SELECTIVITY OF COLUMNS FOR MD-LC 303 16.4 DIMENSIONS OF COLUMNS IN MD-LC 305 16.5 MONOLITHIC SILICA COLUMNS 307 16.6 APPLICATIONS OF MONOLITHIC SILICA IN PROTEOMICS-A BRIEF SURVEY 310 16.7 SUMMARY AND CONCLUSIONS 314 REFERENCES 324 IMAGE 8 XII CONTENTS 17 SILICA MONOLITHS IN SOLID-PHASE EXTRACTION AND SOLID-PHASE MICROEXTRACTION 319 ZHI-CUO SHI, LI XU, AND HIAN KEE LEE 17.1 INTRODUCTION 319 17.2 EXTRACTION PROCESS 320 17.3 EXTRACTION PLATFORMS 321 17.3.1 ONLINE EXTRACTION 321 17.3.2 OFFLINE EXTRACTION 322 VIA APPLICATIONS 322 17.4.1 SPE AND SPME 322 17.4.1.1 SILICA MONOLITH FROM ENTRAPPED PARTICLES 322 17.4.1.2 SILICA MONOLITH FROM DIRECT SOL-GEL STRATEGY 327 17.4.2 OTHER APPLICATIONS OF SILICA MONOLITH 332 17.5 CONCLUSION AND OUTLOOK 332 REFERENCES 333 INDEX 335
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illustrated	Illustrated
indexdate	2024-07-20T10:52:03Z
institution	BVB
isbn	9783527325757
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-020697409
oclc_num	703885077
open_access_boolean
owner	DE-29T
owner_facet	DE-29T
physical	XVIII, 344 S. Ill., graph. Darst. 240 mm x 170 mm
publishDate	2011
publishDateSearch	2011
publishDateSort	2011
publisher	Wiley-VCH
record_format	marc
spelling	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications ed. by Klaus K. Unger ... Weinheim Wiley-VCH 2011 XVIII, 344 S. Ill., graph. Darst. 240 mm x 170 mm txt rdacontent n rdamedia nc rdacarrier HPLC (DE-588)4072641-1 gnd rswk-swf Trennverfahren (DE-588)4078395-9 gnd rswk-swf Siliciumdioxid (DE-588)4077447-8 gnd rswk-swf Monolith (DE-588)4352271-3 gnd rswk-swf Siliciumdioxid (DE-588)4077447-8 s Monolith (DE-588)4352271-3 s Trennverfahren (DE-588)4078395-9 s DE-604 HPLC (DE-588)4072641-1 s 1\p DE-604 Unger, Klaus K. 1936-2020 (DE-588)121177246 edt X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3520443&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=020697409&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications HPLC (DE-588)4072641-1 gnd Trennverfahren (DE-588)4078395-9 gnd Siliciumdioxid (DE-588)4077447-8 gnd Monolith (DE-588)4352271-3 gnd
subject_GND	(DE-588)4072641-1 (DE-588)4078395-9 (DE-588)4077447-8 (DE-588)4352271-3
title	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications
title_auth	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications
title_exact_search	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications
title_full	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications ed. by Klaus K. Unger ...
title_fullStr	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications ed. by Klaus K. Unger ...
title_full_unstemmed	Monolithic silicas in separation science concepts, syntheses, characterization, modeling and applications ed. by Klaus K. Unger ...
title_short	Monolithic silicas in separation science
title_sort	monolithic silicas in separation science concepts syntheses characterization modeling and applications
title_sub	concepts, syntheses, characterization, modeling and applications
topic	HPLC (DE-588)4072641-1 gnd Trennverfahren (DE-588)4078395-9 gnd Siliciumdioxid (DE-588)4077447-8 gnd Monolith (DE-588)4352271-3 gnd
topic_facet	HPLC Trennverfahren Siliciumdioxid Monolith
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3520443&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020697409&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT ungerklausk monolithicsilicasinseparationscienceconceptssynthesescharacterizationmodelingandapplications

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