Verfügbarkeit: Photon Upconversion Nanomaterials

Photon Upconversion Nanomaterials:

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Bibliographische Detailangaben
1. Verfasser:	Zhang, Fan (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2015
Schriftenreihe:	Nanostructure Science and Technology
Schlagworte:	Aufwärtskonversion Lumineszenz Nanopartikel Nanokristall Lanthanoidion
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIX, 416 S. Ill., graph. Darst. 235 mm x 155 mm
ISBN:	9783662455968 9783662455975

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Datensatz im Suchindex

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adam_text	CONTENTS 1 GENERAL INTRODUCTION TO UPCONVERSION LUMINESCENCE MATERIALS 1 1.1 ENERGY TRANSFER MECHANISM OF THE UPCONVERSION MATERIALS . 4 1.2 THE CATEGORY OF THE UPCONVERSION MATERIALS 6 1.2.1 LANTHANIDE-BASED UPCONVERTERS 7 1.2.2 TRANSITION METAL UPCONVERTERS 13 1.2.3 MIXED RARE EARTH/TRANSITION METAL UPCONVERTERS . 14 1.2.4 ORGANIC UPCONVERTERS 14 1.2.5 LANTHANIDE-DOPED UPCONVERSION NANOMATERIALS 15 1.3 SUMMARY 17 REFERENCES 17 2 "WET" CHEMICAL SYNTHESIS AND MANIPULATION OF UPCONVERSION NANOPARTICLES 21 2.1 INTRODUCTION 21 2.2 MECHANISM FOR THE SYNTHESIS OF MONODISPERSE NANOCRYSTALS. . . 22 2.2.1 NUCLEATION 23 2.2.2 SYNTHETIC TECHNIQUES FOR THE SEPARATION OF NUCLEATION AND GROWTH 26 2.2.3 GROWTH 27 2.3 SYNTHESIS ROUTES FOR THE UPCONVERSION NANOPARTICLES 34 2.3.1 THERMOLYSIS STRATEGY 34 2.3.2 HYDRO(SOLVO)THERMAL STRATEGY 39 2.3.3 OTHER METHODS FOR THE SYNTHESIS OF THE LANTHANIDE-DOPED LUMINESCENT NANOPARTICLES 41 2.3.4 ULTRASMALL UPCONVERSION NANOPARTICLES WITH BRIGHT UPCONVERSION LUMINESCENCE 42 2.4 SYNTHESIS ROUTES FOR THE FABRICATION OF THE CORE@SHELL STRUCTURED UPCONVERSION NANOPARTICLES 44 IX HTTP://D-NB.INFO/1059620308 X CONTENTS 2.4.1 ONE-POT HEATING-UP METHOD 44 2.4.2 SUCCESSIVE LAYER-BY-LAYER STRATEGY FOR THE FABRICATION OF MULTI-SHELL-STRUCTURED UPCONVERSION NANOPARTICLES 46 2.4.3 OSTWALD RIPENING STRATEGY FOR THE FABRICATION OF CORE@SHELL UPCONVERSION NANOPARTICLES 48 2.4.4 CATION EXCHANGE STRATEGY FOR THE FABRICATION OF CORE@SHELL UPCONVERSION NANOPARTICLES 49 2.5 CHARACTERIZATIONS 49 2.5.1 OPTICAL CHARACTERIZATION 49 2.5.2 CHEMICAL AND STRUCTURAL CHARACTERIZATION 55 2.6 SUMMARY AND PERSPECTIVES 61 REFERENCES 62 3 UPCONVERSION LUMINESCENCE OF LANTHANIDE ION-DOPED NANOCRYSTALS 73 3.1 INTRODUCTION 73 3.2 UPCONVERSION EMISSION COLOR TUNABILITY 74 3.2.1 MULTI-COLOR EMISSION USING DIFFERENT HOST-DOPANT COMBINATIONS 74 3.2.2 DOPING CONCENTRATION-INDUCED MULTI-COLOR EMISSION 77 3.2.3 TUNING UPCONVERSION EMISSION USING FRET OR LRET 79 3.2.4 SINGLE-BAND UPCONVERSION LUMINESCENCE 80 3.2.5 OTHER WAYS TO TUNE UPCONVERSION EMISSION 81 3.3 STRATEGIES FOR ENHANCEMENT OF UPCONVERSION EFFICIENCY 83 3.3.1 SELECTION OF NOVEL HOST MATRIX 83 3.3.2 PLASMONIC-ENHANCED UPCONVERSION LUMINESCENCE . 88 3.3.3 FABRICATION OF HIGHLY EFFICIENT LANTHANIDE UPCONVERSION NANOPARTICLES BY HOMOGENEOUS DOPING 91 3.3.4 TUNING THE EXCITATION WAVELENGTH 92 3.4 CORE@SHELL STRUCTURE-BASED LUMINESCENCE ENGINEERING OF THE UPCONVERSION NANOCRYSTALS 93 3.4.1 ENHANCING UPCONVERSION LUMINESCENCE WITH CORE@SHELL STRUCTURE 93 3.4.2 TUNING UPCONVERSION EMISSION USING CORE @ SHELL STRUCTURES 98 3.4.3 TUNING OF THE EXCITATION WAVELENGTH 98 3.5 UPCONVERSION NANOCRYSTALS VERSUS QUANTUM DOTS AND DYES 101 3.6 SUMMARY AND PERSPECTIVES 107 REFERENCES 108 CONTENTS XI 4 UPCONVERSION NANOPARTICLE-BASED NANOCOMPOSITES 121 4.1 INTRODUCTION 121 4.2 UCNP-MSI0 2 122 4.2.1 TWO-STEP SOL-GEL METHOD FOR THE FABRICATION OF UCNPS-MSI0 2 NANOCOMPOSITES 125 4.2.2 ONE-STEP SOL-GEL METHOD FOR THE FABRICATION OF UCNPS-MSI0 2 NANOCOMPOSITES 126 4.2.3 YOLK-SHELL UCNPS-MSI0 2 NANOCOMPOSITES 127 4.3 UCNPS-MNPS 130 4.3.1 SI0 2 -ASSISTED SYNTHESIS OF UCNPS-MNPS MULTI-FUNCTIONAL NANOCOMPOSITES 132 4.3.2 CROSS-LINKER-ASSISTED SYNTHESIS OF UCNPS-MNPS MULTI-FUNCTIONAL NANOCOMPOSITES 133 4.3.3 SEED-MEDIATED GROWTH METHOD FOR THE SYNTHESIS OF UCNPS-MNPS MULTI-FUNCTIONAL NANOCOMPOSITES. . . 134 4.3.4 APPLICATIONS OF UCNPS-MNPS NANOCOMPOSITES 135 4.4 UCNPS-METALS 137 4.5 UCNPS-SEMICONDUCTORS 141 4.6 SUMMARY AND PERSPECTIVES 146 REFERENCES 147 5 SURFACE MODIFICATION AND BIOCONJUGATION OF UPCONVERSION NANOPARTICLES 159 5.1 INTRODUCTION 159 5.2 LIGAND ENGINEERING 162 5.2.1 LIGAND EXCHANGE 162 5.2.2 OXIDATION OF OLEIC ACID 169 5.3 LIGAND ATTRACTION 171 5.4 LAYER-BY-LAYER ASSEMBLY 174 5.5 SURFACE MODIFICATIONS USING SILANE REAGENTS 175 5.6 SURFACE POLYMERIZATION 177 5.7 SURFACE CONTROL DURING SYNTHESIS 178 5.8 SUMMARY 180 REFERENCES 180 6 UPCONVERSION NANOPARTICLES FOR BIOMEDICAL IMAGING 187 6.1 INTRODUCTION 187 6.2 IN VITRO AND IN VIVO TOXICITY ASSESSMENT 190 6.2.1 RECENT PROGRESS ON TOXICITY ASSESSMENT OF UCNPS 191 6.2.2 EVALUATION METHODS FOR THE LONG-TERM TOXICITY OF UCNPS IN SMALL ANIMALS 192 6.3 BIOMEDICAL IMAGING USING UCNPS UNDER 980-NM EXCITATION 193 CONTENTS 6.4 BIOMEDICAL IMAGING USING UCNPS EXCITED AT DIFFERENT WAVELENGTH 197 6.5 ULTRASMALL UCNPS FOR BIOMEDICAL IMAGING 198 6.6 OPTICAL TOMOGRAPHY 200 6.7 MULTIMODAL IMAGING USING UCNPS. . . . 202 6.7.1 UPCONVERSION PL AND MAGNETIC RESONANCE IMAGING (MRI) 202 6.7.2 UPCONVERSION PL AND X-RAY COMPUTED TOMOGRAPHY (CT) 207 6.7.3 UPCONVERSION PL AND POSITRON EMISSION TOMOGRAPHY (PET) 209 6.7.4 UPCONVERSION PL AND SINGLE-PHOTON EMISSION COMPUTED TOMOGRAPHY (SPECT) 210 6.7.5 UPCONVERSION PL AND MULTIMODAL IMAGING (MRLTET/SPECT/CT) 212 6.8 UPCONVERSION IMAGING TECHNIQUES 212 6.8.1 IMAGING SYSTEM 212 6.8.2 PENETRATION DEPTH MEASUREMENT 218 6.9 CONCLUSION AND FUTURE OPPORTUNITY FOR UPCONVERSION-BASED BIOMEDICAL IMAGING 224 REFERENCES 226 7 THE APPLICATIONS OF UPCONVERSION NANOPARTICLES IN BIOASSAY . 233 7.1 INTRODUCTION 233 7.2 HETEROGENEOUS ASSAY 234 7.3 HOMOGENEOUS ASSAY 238 7.4 UCNPS FOR ENCODING AND MULTIPLEXED DETECTION 241 7.4.1 TUNING UCNPS' MATERIAL COMPOSITION FOR ENCODING AND MULTIPLEXED DETECTION 244 7.4.2 TUNING UCNPS' OPTICAL SURFACE LAYER FOR ENCODING AND MULTIPLEXED DETECTION 247 7.4.3 TUNING UCNPS' LUMINESCENCE LIFETIMES FOR ENCODING AND MULTIPLEXED DETECTION 247 REFERENCES 248 8 UPCONVERSION NANOPARTICLES FOR BIOSENSING 255 8.1 INTRODUCTION 255 8.2 THE CONSTRUCTION OF UCNPS-BASED FRET OR LRET NANOSENSORS WITH DIFFERENT ENERGY ACCEPTORS 258 8.2.1 ORGANIC DYES AS ENERGY ACCEPTORS 258 8.2.2 NOBLE METAL NANOPARTICLES AS ENERGY ACCEPTORS 262 8.2.3 CARBON NANOMATERIALS AS ENERGY ACCEPTORS 264 8.2.4 MN02 NANOSHEETS AS ENERGY ACCEPTORS 267 CONTENTS XIII 8.3 BIOSENSING OF DIFFERENT SPECIES OF ANALYTES 268 8.3.1 BIOSENSING OF IONS 269 8.3.2 BIOSENSING OF GAS MOLECULES 271 8.3.3 BIOSENSING OF BIOMOLECULES 272 8.4 DETECTION BASED ON MAGNETIC SEPARATION 274 8.5 DETECTION BASED ON QUENCHING EFFECT OF HEAVY METAL IONS . . . 276 REFERENCES 278 9 UPCONVERSION NANOPARTICLES FOR LIGHT-ACTIVATED THERAPY 285 9.1 INTRODUCTION 285 9.2 UCNPS FOR PHOTODYNAMIC THERAPY 286 9.2.1 HISTORY AND MECHANISM OF PHOTODYNAMIC THERAPY . . . 286 9.2.2 PHOTOSENSITIZERS 289 9.2.3 UCNP-BASED PHOTODYNAMIC THERAPY 291 9.3 UCNPS FOR CHEMOTHERAPY AND GENE THERAPY 314 9.3.1 NIR LIGHT-TRIGGERED PHOTOISOMERIZATION 315 9.3.2 NIR LIGHT-TRIGGERED PHOTOLYSIS 319 9.3.3 NIR LIGHT-TRIGGERED PHOTOREDUCTION 328 9.4 UCNPS FOR PHOTOTHERMAL THERAPY 329 9.5 CONCLUSION AND PERSPECTIVES 330 REFERENCES 331 10 UPCONVERSION NANOPARTICLES FOR THERMAL SENSING 343 10.1 INTRODUCTION 343 10.2 RARE EARTH-DOPED UPCONVERSION NANOTHERMOMETRY 348 10.2.1 INTENSITY UPCONVERSION NANOTHERMOMETRY 348 10.2.2 BAND-SHAPED UPCONVERSION NANOTHERMOMETRY-FIR THEORY 351 10.2.3 LIFETIME UPCONVERSION NANOTHERMOMETRY 359 10.2.4 BANDWIDTH NANOTHERMOMETRY AND SPECTRAL POSITION NANOTHERMOMETRY 359 10.3 UCNP-BASED NANOCOMPOSITE MATERIALS FOR NANOTHERMOTRY . . . 362 10.4 UPCONVERSION NANOPARTICLES VERSUS QUANTUM DOTS VERSUS GOLD NANOPARTICLES VERSUS GREEN FLUORESCENT PROTEIN AS NANOTHERMOMETRY 366 10.4.1 QUANTUM DOTS (QDS) 366 10.4.2 GOLD NANOPARTICLES (GNPS) 368 10.4.3 GREEN FLUORESCENT PROTEIN (GFP) 368 10.4.4 COMPARISON BETWEEN UCNPS, GNPS, QDS, AND GFP-BASED NANOTHERMOMETERS 369 10.5 SUMMARY AND OUTLOOK 370 REFERENCES 371 XIV CONTENTS 11 UPCONVERSION NANOPARTICLES FOR OTHER APPLICATIONS 375 11.1 INTRODUCTION 375 11.2 UCNPS FOR PHOTOVOLTAIC CELLS 376 11.2.1 SOLAR CELL OPERATION PRINCIPLE AND THEIR OBSTACLES . . . 377 11.2.2 RECENT SOLUTIONS TO THE ABOVE OBSTACLES 379 11.2.3 RECENT PROGRESS IN UPCONVERSION-ASSISTED SOLAR CELL 381 11.2.4 CONCLUSION AND FUTURE OPPORTUNITY FOR UPCONVERSION-ASSISTED SOLAR CELL 383 11.3 UCNPS FOR PHOTOCATALYSIS 386 11.3.1 PHOTOCATALYSIS MECHANISM 386 11.3.2 OBSTACLES AND RECENT SOLUTIONS FOR PHOTOCATALYSIS. . . . 388 11.3.3 RECENT PROGRESS IN UPCONVERSION-ASSISTED PHOTOCATALYSIS 390 11.3.4 CONCLUSION AND FUTURE OPPORTUNITY FOR UPCONVERSION-ASSISTED PHOTOCATALYSIS 394 11.4 UCNPS FOR SECURITY APPLICATION 396 11.5 UCNPS FOR OPTICAL STORAGE, REMOTE-CONTROL PHOTOSWITCHING AND OTHER APPLICATIONS 403 REFERENCES 404 12 CONCLUSIONS AND PERSPECTIVES 409 INDEX 413
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spelling	Zhang, Fan Verfasser aut Photon Upconversion Nanomaterials Fan Zhang Berlin [u.a.] Springer 2015 XIX, 416 S. Ill., graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Nanostructure Science and Technology Aufwärtskonversion (DE-588)4528270-5 gnd rswk-swf Lumineszenz (DE-588)4135964-1 gnd rswk-swf Nanopartikel (DE-588)4333369-2 gnd rswk-swf Nanokristall (DE-588)7574326-7 gnd rswk-swf Lanthanoidion (DE-588)4467132-5 gnd rswk-swf Nanokristall (DE-588)7574326-7 s Nanopartikel (DE-588)4333369-2 s Lumineszenz (DE-588)4135964-1 s Lanthanoidion (DE-588)4467132-5 s Aufwärtskonversion (DE-588)4528270-5 s DE-604 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4802524&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=027906380&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Zhang, Fan Photon Upconversion Nanomaterials Aufwärtskonversion (DE-588)4528270-5 gnd Lumineszenz (DE-588)4135964-1 gnd Nanopartikel (DE-588)4333369-2 gnd Nanokristall (DE-588)7574326-7 gnd Lanthanoidion (DE-588)4467132-5 gnd
subject_GND	(DE-588)4528270-5 (DE-588)4135964-1 (DE-588)4333369-2 (DE-588)7574326-7 (DE-588)4467132-5
title	Photon Upconversion Nanomaterials
title_auth	Photon Upconversion Nanomaterials
title_exact_search	Photon Upconversion Nanomaterials
title_full	Photon Upconversion Nanomaterials Fan Zhang
title_fullStr	Photon Upconversion Nanomaterials Fan Zhang
title_full_unstemmed	Photon Upconversion Nanomaterials Fan Zhang
title_short	Photon Upconversion Nanomaterials
title_sort	photon upconversion nanomaterials
topic	Aufwärtskonversion (DE-588)4528270-5 gnd Lumineszenz (DE-588)4135964-1 gnd Nanopartikel (DE-588)4333369-2 gnd Nanokristall (DE-588)7574326-7 gnd Lanthanoidion (DE-588)4467132-5 gnd
topic_facet	Aufwärtskonversion Lumineszenz Nanopartikel Nanokristall Lanthanoidion
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work_keys_str_mv	AT zhangfan photonupconversionnanomaterials

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