Trace analysis with nanomaterials:
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
WILEY-VCH
2010
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XXI, 396 S. Ill., graph. Darst. |
| ISBN: | 9783527323500 |
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CONTENTS PREFACE XIII LIST OF CONTRIBUTORS XVII PART 1 BIOLOGICAL AND
CHEMICAL ANALYSIS 1 1 PHOTOSWITCHABLE NANOPROBES FOR BIOLOGICAL IMAGING
APPLICATIONS 3 ZHIYUAN TICRN, WUWEI WU, AND ALEXANDER D.Q. LI 1.1
INTRODUCTION 3 1.2 PHOTOSWITCHABLE FLUORESCENT NANOPROBES 4 1.2.1
SINGLE-COLOR (ON-OFF) FLUORESCENT NANOPROBES 5 1.2.1.1 FLUORESCENCE
MODULATION OF SEMICONDUCTOR NANOCRYSTALS 5 1.2.1.2 ISOMERIZATION OF
PHOTOCHROMIC SPIROPYRANS 7 1.2.1.3 ISOMERIZATION OF PHOTOCHROMIC
DIARYLETHENES 9 1.2.1.4 STRUCTURAL CONVERSION OF A PHOTOSWITCHABLE
PROTEIN 11 1.2.2 DUAL-COLOR FLUORESCENCE NANOPROBES 13 1.2.2.1 GREEN TO
RED FLUORESCENCE CONVERSION WITH PROTEINS 13 1.2.2.2 FRET-BASED
FLUORESCENCE PHOTOSWITCHING 15 1.2.2.3 PHOTOSWITCHABLE NANOPARTICLES
BASED ON A SINGLE DYE 17 1.2.3 PHOTOSWITCHABLE FLUORESCENT NANOPARTICLES
FOR BIOIMAGING 19 1.3 PHOTOSWITCHABLE MAGNETIC NANOPARTICLES 22 1.3.1
NANOPARTICLES WITH PHOTOSWITCHABLE MAGNETIZATION 22 1.3.2 MAGNETIC
NANOPARTICLES WITH PHOTOSWITCHABLE FLUORESCENCE 24 1.4 FUTURE
PERSPECTIVES 25 ACKNOWLEDGMENT BIBLIOGRAFISCHE INFORMATIONEN
HTTP://D-NB.INFO/99160590X DIGITALISIERT DURCH VI CONTENTS 2.3.1 II-VI
QUANTUM DOTS 32 2.3.2 III-V QUANTUM DOTS 33 2.3.3 IV-VI QUANTUM DOTS 34
2.3.4 CORE-SHELL QUANTUM DOTS 34 2.3.5 ALLOYED QUANTUM DOTS 35 2.4
CHARACTERISTICS 35 2.4.1 ELECTRONIC PROPERTIES 36 2.4.2 UNIQUE OPTICAL
PROPERTIES 38 2.5 SYNTHESIS AND SURFACE CHEMISTRY 40 2.5.1
ORGANOMETALLIC APPROACHES 40 2.5.2 AQUEOUS PHASE COLLOIDAL SYNTHESIS 41
2.5.3 MODIFICATION OF SURFACE CHEMISTRY 41 2.6 TRACE ANALYSIS USING
QUANTUM DOTS 42 2.6.1 DETERMINATIONS BASED ON DIRECT FLUORESCENCE
RESPONSE 42 2.6.2 FLUORESCENCE RESONANCE ENERGY TRANSFER (FRET) ANALYSIS
USING QDS 44 2.6.3 ROOM-TEMPERATURE PHOSPHORESCENCE DETECTION 45 2.6.4
NEAR-INFRARED DETECTION USING QDS 46 2.6.5 RAYLEIGH LIGHT SCATTERING
(RLS) ANALYSIS 48 2.6.6 CHEMILUMINESCENCE ANALYSIS 48 2.6.7
ELECTROCHEMICAL ANALYSIS 50 2.6.8 CHEMOSENSORS AND BIOSENSORS 51 2.6.9
"NANO-ON-MICRO" ASSAY 52 2. CONTENTS VII 3.4 CONCLUSIONS 84
ACKNOWLEDGMENTS 85 REFERENCES 85 4 CHEMICAL AND BIOLOGICAL SENSING BY
ELECTRON TRANSPORT IN NANOMATERIALS 89 JAI-PIL CHOI 4.1 INTRODUCTION 89
4.2 ELECTRON TRANSPORT THROUGH METAL NANOPARTICLES 90 4.2.1 COULOMB
BLOCKADE EFFECT AND SINGLE ELECTRON TRANSFER 91 4.2.2 VOLTAMMETRY OF
METAL NANOPARTICLES IN SOLUTIONS 92 4.2.3 ELECTRON TRANSPORT THROUGH
METAL NANOPARTICLE ASSEMBLIES 95 4.3 SENSING APPLICATIONS BASED ON
ELECTRON TRANSPORT IN NANOPARTICLE ASSEMBLIES 97 4.3.1 CHEMICAL SENSORS
97 4.3.1.1 SENSORS BASED ON METAL NANOPARTICLE FILMS 98 4.3.1.2 SENSORS
BASED ON SEMICONDUCTING OXIDE NANOPARTICLES 101 4.3.2 BIOSENSORS 103 4.4
CONCLUDING REMARKS 106 ACKNOWLEDGMENTS 107 REFERENCES 108 5 MICRO- AND
NANOFLUIDIC SYSTEMS FOR TRACE ANALYSIS OF BIOLOGICAL SAMPLES 111
DEBASHIS DUTTA 5.1 INTRODUCTION 111 5. VILI CONTENTS 6.2.1 MONOMERS,
CROSSLINKERS, AND POROGEN SOLVENTS 139 6.2.2 REBINDING OF TARGET
ANALYTES 140 6.2.3 COMPUTATIONAL MODELING 141 6.3 ANALYTICAL APPLICATION
OF MIPS FOR BIOPHARMACEUTICALS AND TOXINS 143 6.4 PREPARATION OF MIP
SUBMICRON PARTICLES 146 6.5 BINDING PROPERTIES OF MIP SUBMICRON
PARTICLES WITH E2 148 6.5.1 MODELS OF E2 BINDING WITH MIP SUBMICRON
PARTICLES 149 6.5.2 KINETICS OF MIP BINDING WITH E2 150 6.6 TRACE
ANALYSIS OF E2 IN WASTEWATER TREATMENT 150 6.7 CURRENT PROGRESS 152 6.8
RECENT ADVANCES IN MIP TECHNOLOGY FOR CONTINUING DEVELOPMENT 253
ACKNOWLEDGMENTS 156 REFERENCES 156 7 TRACE DETECTION OF HIGH EXPLOSIVES
WITH NANOMATERIALS 161 WUJIAN MIAO, CUNWANG CE, SUMAN PARAJULI, JIAN
SHI, AND XIAOHUIJING 7.1 INTRODUCTION 262 7.2 TECHNIQUES FOR TRACE
DETECTION OF HIGH EXPLOSIVES 164 7.2.1 ELECTROCHEMICAL SENSORS 264
7.2.1.1 NANOMATERIAL MODIFIED ELECTRODES 165 7.2.1.2 "ARTIFICIAL
PEROXIDASE"-MODIFIED ELECTRODES BASED ON PRUSSIAN BLUE 266 7.2.2
ELECTROGENERATED CHEMILUMINESCENCE 267 7.2.3 FLUORESCENCE-BASED SENSORS
269 7.2.3.1 QUENCHING SENSORS BASED ON FLUORESCENT POLYMER POROUS FILMS
169 7.2.3.2 QUENCHING SENSORS BASED ON FLUORESCENT NANOFIBRIL FILMS 171
CONTENTS I IX 8.3 THIOL-FUNCTIONALIZED ORDERED MESOPOROUS SILICA FOR
HEAVY METAL COLLECTION 194 8.3.1 PERFORMANCE COMPARISONS OF SORPTION
MATERIALS FOR ENVIRONMENTAL SAMPLES 294 8.3.2 PERFORMANCE COMPARISONS OF
SORPTION MATERIALS FOR BIOLOGICAL SAMPLES 297 8.4 SURFACE-FUNCTIONALIZED
MAGNETIC NANOPARTICLES FOR HEAVY METAL CAPTURE AND DETECTION 200 8.5
NANOPOROUS CARBON BASED SORBENT MATERIALS 206 8.5.1 CHEMICALLY-MODIFIED
ACTIVATED CARBONS 207 8.5.2 TEMPLATED MESOPOROUS CARBONS 209 8.6 OTHER
NANOSTRUCTURED SORBENT MATERIALS 212 8.6.1 ZEOLITES 222 8.6.2
ION-IMPRINTED POLYMERS 224 8.7 CONCLUDING THOUGHTS 225 ACKNOWLEDGMENTS
227 REFERENCES 227 9 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.4.1 9.2.4.2
9.2.5 9.3 9.3.1 9.3.1.1 9.3.1.2 9.3.1.3 9.3.1.4 9.3.2 9.3.2.1 9.3.2.2
9.3.2.3 9.3.3 9.3.3.1 9.3.3.2 SYNTHESIS AND ANALYSIS APPLICATIONS OF TIO
2 -BASED NANOMATERIALS 223 AIZE LI, BENJAMEN C. SUN, NENNY FAHRUDDIN,
JULIA X. ZHAO AND X I CONTENTS 9.4 CONCLUSIONS 246 ACKNOWLEDGMENTS 247
REFERENCES 247 10 NANOMATERIALS IN THE ENVIRONMENT: THE GOOD, THE BAD,
AND THE UGLY 255 RHETTJ. CLARK, JONATHAN C.C. VEINOT, AND CHARLES S.
WONG 10.1 INTRODUCTION 255 10.2 THE GOOD: NANOMATERIALS FOR
ENVIRONMENTAL SENSING 256 10.2.1 COLORIMETRIE DETECTION 256 10.2.1.1
NOBLE METAL NANOPARTICLES 256 10.2.1.2 DNAZYMES 260 10.2.1.3 MONOLITHIC
NANOPOROUS SENSORS 263 10.2.2 FLUORESCENCE-BASED DETECTION 264 10.2.3
FLUORESCENCE QUENCHING 267 10.3 THE BAD: ENVIRONMENTAL FATE OF
NANOMATERIALS 269 10.3.1 ENVIRONMENTAL FATE 270 10.3.1.1 FACTORS
AFFECTING AGGREGATION 270 10.3.1.2 NANOPARTICLES IN POROUS MEDIA 272
10.3.2 TOXICITY 273 10.4 THE UGLY: DETECTION OF NANOMATERIALS IN THE
ENVIRONMENT 275 10.5 CONCLUSIONS 278 ACKNOWLEDGMENTS 279 REFERENCES 279
PART 3 ADVANCED METHODS AND MATERIALS 283 11 ELECTROANALYTICAL
MEASUREMENTS AT ELECTRODES MODIFIED WITH METAL NANOPARTICLES 28 CONTENTS
XI 11.3.3 PARTICLE COMPOSITION DEPENDENCE 302 11.4 ANALYTICAL
APPLICATIONS OF ELECTRODES MODIFIED WITH METAL NANOPARTICLES 304 11.4.1
DETERMINATION OF INORGANIC ANALYTES 305 11.4.2 DETERMINATION OF ORGANIC
AND BIOLOGICALLY IMPORTANT ANALYTES 310 11.5 CONCLUSIONS 313 REFERENCES
314 12 SINGLE MOLECULE AND SINGLE EVENT NANOELECTROCHEMICAL ANALYSIS 329
SHANLIN PAN AND GANGLI WANG 12.1 INTRODUCTION 319 12.2 BASIC CONCEPTS
320 12.2.1 ELECTROCHEMISTRY 320 12.2.2 NANOELECTRODES 320 12.3
SINGLE-MOLECULE ELECTROCHEMISTRY 322 12.3.1 SINGLE-MOLECULE
ELECTROCHEMISTRY USING NANOELECTRODES 322 12.3.2 SINGLE-MOLECULE
SPECTROELECTROCHEMISTRY 323 12.4 SINGLE-NANOPARTICLE ELECTROCHEMICAL
DETECTION 326 12.4.1 SINGLE-NANOPARTICLE DETECTION USING NANOPARTICLE
COLLISION AT A MICROELECTRODE 326 12.4.2 SINGLE-NANOPARTICLE
ELECTROCHEMISTRY USING SINGLE-MOLECULE SPECTROSCOPY 328 12.5
NANOELECTRODES FOR ULTRASENSITIVE ELECTROCHEMICAL DETECTION AND
HIGH-RESOLUTION IMAGING 328 XIII CONTENTS 13.5.1 PERMEATION OF SMALL
MOLECULES THROUGH PS-B-PMMA-DERIVED NANOPOROUS MONOLITHS 347 13.5.2
REGULATION OF MOLECULAR PERMEABILITY BASED ON ELECTROSTATIC INTERACTIONS
348 13.5.3 INFLUENCE OF SUPPORTING ELECTROLYTE CONCENTRATION TO
EFFECTIVE NANOPORE DIAMETER 350 13.5.4 PERMEATION OF NANOPARTICLES,
POLYMERS, AND BIOMACROMOLECULES THROUGH BCP-DERIVED NANOPORES 352 13.6
CONCLUSIONS 355 ACKNOWLEDGMENTS 356 REFERENCES 356 14 SYNTHESIS AND
APPLICATIONS OF COLD NANORODS 359 CARRIE L.JOHN, SHUPING XU, YUHUIJIN,
SHAINA L STRATING, AND JULIA XIAOJUN ZHAO 14.1 INTRODUCTION 359 14.2 AU
NANOROD SYNTHESIS 360 14.2.1 ELECTROCHEMICAL SYNTHESIS 360 14.2.1.1
ELECTROCHEMICAL SYNTHESIS EMPLOYING A HARD TEMPLATE 360 14.2.1.2
ELECTROCHEMICAL SYNTHESIS EMPLOYING A SOFT TEMPLATE 362 14.2.2
PHOTOCHEMICAL SYNTHESIS 364 14.2.3 SEED-MEDIATED GROWTH 364 14.3 SIGNAL
ENHANCEMENT 367 14.3.1 PLASMON RESONANCE 367 14.3.2 SURFACE-ENHANCED
RAMAN SCATTERING 368 14.3.3 LUMINESCENCE ENHANCEMENT OF DYE MOLECULES
369 14.3. |
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| illustrated | Illustrated |
| indexdate | 2024-07-20T10:39:25Z |
| institution | BVB |
| isbn | 9783527323500 |
| language | English |
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| owner_facet | DE-29T DE-11 |
| physical | XXI, 396 S. Ill., graph. Darst. |
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| publisher | WILEY-VCH |
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| spelling | Trace analysis with nanomaterials Ed. by David T. Pierce and Julia Xiaojun Zhao Weinheim WILEY-VCH 2010 XXI, 396 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Spurenanalyse (DE-588)4056593-2 gnd rswk-swf Spurenanalyse (DE-588)4056593-2 s Nanostrukturiertes Material (DE-588)4342626-8 s DE-101 Pierce, David T. (DE-588)141549858 edt Zhao, Julia Xiaojun edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3188785&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=020428716&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Trace analysis with nanomaterials Nanostrukturiertes Material (DE-588)4342626-8 gnd Spurenanalyse (DE-588)4056593-2 gnd |
| subject_GND | (DE-588)4342626-8 (DE-588)4056593-2 |
| title | Trace analysis with nanomaterials |
| title_auth | Trace analysis with nanomaterials |
| title_exact_search | Trace analysis with nanomaterials |
| title_full | Trace analysis with nanomaterials Ed. by David T. Pierce and Julia Xiaojun Zhao |
| title_fullStr | Trace analysis with nanomaterials Ed. by David T. Pierce and Julia Xiaojun Zhao |
| title_full_unstemmed | Trace analysis with nanomaterials Ed. by David T. Pierce and Julia Xiaojun Zhao |
| title_short | Trace analysis with nanomaterials |
| title_sort | trace analysis with nanomaterials |
| topic | Nanostrukturiertes Material (DE-588)4342626-8 gnd Spurenanalyse (DE-588)4056593-2 gnd |
| topic_facet | Nanostrukturiertes Material Spurenanalyse |
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