Introduction to biophotonics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley-Interscience
2003
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| Schlagworte: | |
| Online-Zugang: | Publisher description Table of contents only Contributor biographical information Book review (E-STREAMS) Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | xvii, 593 p., [8] p. of plates ill. (some col.) 24 cm |
| ISBN: | 0471287709 |
Internformat
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| 100 | 1 | |a Prasad, Paras N. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Introduction to biophotonics |c Paras N. Prasad |
| 264 | 1 | |a Hoboken, NJ |b Wiley-Interscience |c 2003 | |
| 300 | |a xvii, 593 p., [8] p. of plates |b ill. (some col.) |c 24 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Biocapteurs | |
| 650 | 4 | |a Nanotechnologie | |
| 650 | 4 | |a Photobiologie | |
| 650 | 4 | |a Photonique | |
| 650 | 4 | |a Photobiology | |
| 650 | 4 | |a Photonics | |
| 650 | 4 | |a Biosensors | |
| 650 | 4 | |a Nanotechnology | |
| 650 | 0 | 7 | |a Biophotonik |0 (DE-588)7616461-5 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Biophotonik |0 (DE-588)7616461-5 |D s |
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| 856 | 4 | |u http://www.loc.gov/catdir/description/wiley038/2003000578.html |3 Publisher description | |
| 856 | 4 | |u http://www.loc.gov/catdir/toc/wiley031/2003000578.html |3 Table of contents only | |
| 856 | 4 | |u http://www.loc.gov/catdir/enhancements/fy0614/2003000578-b.html |3 Contributor biographical information | |
| 856 | 4 | |u http://www.e-streams.com/es0610/es0610_2771.html |3 Book review (E-STREAMS) | |
| 856 | 4 | 2 | |m GBV Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015633928&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1805086449690738688 |
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| adam_text |
INTRODUCTION TO BIOPHOTONICS PARAS IM. PRASAD /CF)\WILEY-
VXJINTERSCIENCE A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE
XV ACKNOWLEGMENTS XVII 1. INTRODUCTION 1 1.1 BIOPHOTONICS*A NEW FRONTIER
1 1.2 AN INVITATION TO MULTIDISCIPLINARY EDUCATION, TRAINING, AND
RESEARCH 2 1.3 OPPORTUNITIES FOR BOTH BASIC RESEARCH AND BIOTECHNOLOGY
DEVELOPMENT 4 1.4 SCOPE OF THIS BOOK 5 2. FUNDAMENTALS OF LIGHT AND
MATTER 11 2.1 NATURE OF LIGHT 12 2.1.1 DUAL CHARACTER OF LIGHT 12 2.1.2
PROPAGATION OF LIGHT AS WAVES 14 2.1.3 COHERENCE OF LIGHT 17 2.1.4 LIGHT
AS PHOTON PARTICLES 19 2.1.5 OPTICAL ACTIVITY AND BIREFRINGENCE 20 2.1.6
DIFFERENT LIGHT SOURCES 21 2.2 QUANTIZED STATES OF MATTER 21 2.2.1
INTRODUCTORY CONCEPTS 21 2.2.2 QUANTIZED STATES OF ATOMS 24 2.2.3
QUANTIZED STATES OF MOLECULES: PARTITIONING OF MOLECULAR ENERGIES 27
2.2.4 ELECTRONIC STATES OF A MOLECULE 29 2.2.5 BONDING IN ORGANIC
MOLECULES 35 2.2.6 CONJUGATED ORGANIC MOLECULES 37 2.2.7 VIBRATIONAL
STATES OF A MOLECULE 39 2.3 INTERMOLECULAR EFFECTS 41 2.4
THREE-DIMENSIONAL STRUCTURES AND STEREOISOMERS 43 HIGHLIGHTS OF THE
CHAPTER 46 REFERENCES 48 VIII CONTENTS 3. BASICS OF BIOLOGY 50 3.1
INTRODUCTORY CONCEPTS 51 3.2 CELLULAR STRUCTURE 52 3.3 VARIOUS TYPES OF
CELLS 58 3.4 CHEMICAL BUILDING BLOCKS 60 3.5 INTERACTIONS DETERMINING
THREE-DIMENSIONAL STRUCTURES OF BIOPOLYMERS 68 3.6 OTHER IMPORTANT
CELLULAR COMPONENTS 72 3.7 CELLULAR PROCESSES 73 3.8 PROTEIN
CLASSIFICATION AND FUNCTION 82 3.9 ORGANIZATION OF CELLS INTO TISSUES 85
3.10 TYPES OF TISSUES AND THEIR FUNCTIONS 87 3.11 TUMORS AND CANCERS 88
HIGHLIGHTS OF THE CHAPTER 89 REFERENCES 91 4. FUNDAMENTALS OF
LIGHT-MATTER INTERACTIONS 92 4.1 INTERACTIONS BETWEEN LIGHT AND A
MOLECULE 93 4.1.1. NATURE OF INTERACTIONS 93 4.1.2. EINSTEIN'S MODEL OF
ABSORPTION AND EMISSION 95 4.2 INTERACTION OF LIGHT WITH A BULK MATTER
97 4.3 FATE OF EXCITED STATE 99 4.4 VARIOUS TYPES OF SPECTROSCOPY 102
4.5 ELECTRONIC ABSORPTION SPECTROSCOPY 105 4.6 ELECTRONIC LUMINESCENCE
SPECTROSCOPY 109 4.7 VIBRATIONAL SPECTROSCOPY 113 4.8 SPECTROSCOPY
UTILIZING OPTICAL ACTIVITY OF CHIRAL MEDIA 117 4.9 FLUORESCENCE
CORRELATION SPECTROSCOPY (FCS) 122 HIGHLIGHTS OF THE CHAPTER 124
REFERENCES 127 5. PRINCIPLES OF LASERS, CURRENT LASER TECHNOLOGY, AND
NONLINEAR OPTICS 129 5.1 PRINCIPLES OF LASERS 130 5.1.1 LASERS: A NEW
LIGHT SOURCE 130 5.1.2 PRINCIPLES OF LASER ACTION 131 5.1.3
CLASSIFICATION OF LASERS 135 5.1.4 SOME IMPORTANT LASERS FOR
BIOPHOTONICS 139 5.2 CURRENT LASER TECHNOLOGIES 139 5.3 QUANTITATIVE
DESCRIPTION OF LIGHT: RADIOMETRY 142 5.4 NONLINEAR OPTICAL PROCESSES
WITH INTENSE LASER BEAM 143 5.4.1 MECHANISM OF NONLINEAR OPTICAL
PROCESSES 143 CONTENTS IX 5.4.2 FREQUENCY CONVERSION BY A SECOND-ORDER
NONLINEAR OPTICAL PROCESS 145 5.4.3 SYMMETRY REQUIREMENT FOR A
SECOND-ORDER PROCESS 146 5.4.4 FREQUENCY CONVERSION BY A THIRD-ORDER
NONLINEAR OPTICAL PROCESS 148 5.4.5 MULTIPHOTON ABSORPTION 149 5.5
TIME-RESOLVED STUDIES 152 5.6 LASER SAFETY 154 HIGHLIGHTS OF THE CHAPTER
156 REFERENCES 157 6. PHOTOBIOLOGY 159 6.1 PHOTOBIOLOGY*AT THE CORE OF
BIOPHOTONICS 160 6.2 INTERACTION OF LIGHT WITH CELLS 160 6.2.1 LIGHT
ABSORPTION IN CELLS 161 6.2.2 LIGHT-INDUCED CELLULAR PROCESSES 163 6.2.3
PHOTOCHEMISTRY INDUCED BY EXOGENOUS PHOTOSENSITIZERS 167 6.3 INTERACTION
OF LIGHT WITH TISSUES 168 6.4 PHOTOPROCESSES IN BIOPOLYMERS 175 6.4.1
THE HUMAN EYE AND VISION 176 6.4.2 PHOTOSYNTHESIS 181 6.5 IN VIVO
PHOTOEXCITATION 186 6.5.1 FREE-SPACE PROPAGATION 186 6.5.2 OPTICAL FIBER
DELIVERY SYSTEM 187 6.5.3 ARTICULATED ARM DELIVERY 189 6.5.4 HOLLOW TUBE
WAVEGUIDES 190 6.6 IN VIVO SPECTROSCOPY 190 6.7 OPTICAL BIOPSY 191 6.8
SINGLE-MOLECULE DETECTION 195 HIGHLIGHTS OF THE CHAPTER 197 REFERENCES
199 7. BIOIMAGING: PRINCIPLES AND TECHNIQUES 203 7.1 BIOIMAGING: AN
IMPORTANT BIOMEDICAL TOOL 205 7.2 AN OVERVIEW OF OPTICAL IMAGING 206 7.3
TRANSMISSION MICROSCOPY 209 7.3.1 SIMPLE MICROSCOPE 209 7.3.2 COMPOUND
MICROSCOPE 210 7.3.3 KOHLER ILLUMINATION 212 7.3.4 NUMERICAL APERTURE
AND RESOLUTION 214 X CONTENTS 7.3.5 OPTICAL ABERRATIONS AND DIFFERENT
TYPES OF OBJECTIVES 215 7.3.6 PHASE CONTRAST MICROSCOPY 216 7.3.7
DARK-FIELD MICROSCOPY 216 7.3.8 DIFFERENTIAL INTERFERENCE CONTRAST
MICROSCOPY (DIC) 217 7.4 FLUORESCENCE MICROSCOPY 219 7.5 SCANNING
MICROSCOPY 220 7.6 INVERTED AND UPRIGHT MICROSCOPES 221 7.7 CONFOCAL
MICROSCOPY 221 7.8 MULTIPHOTON MICROSCOPY 223 7.9 OPTICAL COHERENCE
TOMOGRAPHY 225 7.10 TOTAL INTERNAL REFLECTION FLUORESCENCE MICROSCOPY
228 7.11 NEAR-FIELD OPTICAL MICROSCOPY 232 7.12 SPECTRAL AND
TIME-RESOLVED IMAGING 234 7.12.1 SPECTRAL IMAGING 235 7.12.2 BANDPASS
FILTERS 235 7.12.3 EXCITATION WAVELENGTH SELECTION 236 7.12.4
ACOUSTO-OPTIC TUNABLE FILTERS 236 7.12.5 LOCALIZED SPECTROSCOPY 237 7.13
FLUORESCENCE RESONANCE ENERGY TRANSFER (FRET) IMAGING 237 7.14
FLUORESCENCE LIFETIME IMAGING MICROSCOPY (FLIM) 238 7.15 NONLINEAR
OPTICAL IMAGING 240 7.15.1 SECOND-HARMONIC MICROSCOPY 241 7.15.2
THIRD-HARMONIC MICROSCOPY 243 7.15.3 COHERENT ANTI-STOKES RAMAN
SCATTERING (CARS) MICROSCOPY 243 7.16 FUTURE DIRECTIONS OF OPTICAL
BIOIMAGING 245 7.16.1 MULTIFUNCTIONAL IMAGING 245 7.16.2 4PI IMAGING 245
7.16.3 COMBINATION MICROSCOPES 246 7.16.4 MINIATURIZED MICROSCOPES 246
7.17 SOME COMMERCIAL SOURCES OF IMAGING INSTRUMENTS 246 HIGHLIGHTS OF
THE CHAPTER 246 REFERENCES 249 8. BIOIMAGING: APPLICATIONS 255 8.1
FLUOROPHORES AS BIOIMAGING PROBES 256 8.1.1 ENDOGENOUS FLUOROPHORES 256
8.1.2 EXOGENOUS FLUOROPHORES 257 8.1.3 ORGANOMETALLIC COMPLEX
FLUOROPHORES 264 8.1.4 NEAR-IR AND IR FLUOROPHORE 265 CONTENTS XI 8.1.5
TWO-PHOTON FLUOROPHORES 265 8.1.6 INORGANIC NANOPARTICLES 269 8.2 GREEN
FLUORESCENT PROTEIN 269 8.3 IMAGING OF ORGANELLES 271 8.4 IMAGING OF
MICROBES 273 8.4.1 CONFOCAL MICROSCOPY 273 8.4.2 NEAR-FIELD IMAGING 274
8.5 CELLULAR IMAGING 276 8.5.1 PROBING CELLULAR IONIC ENVIRONMENT 276
8.5.2 INTRACELLULAR PH MEASUREMENTS 277 8.5.3 OPTICAL TRACKING OF
DRUG-CELL INTERACTIONS 279 8.5.4 IMAGING OF NUCLEIC ACIDS 281 8.5.5
CELLULAR INTERACTIONS PROBED BY FRET/FLIM IMAGING 287 8.6 TISSUE IMAGING
289 8.7 IN VIVO IMAGING 294 8.8 FUTURE DIRECTIONS 301 8.9 COMMERCIALLY
AVAILABLE OPTICAL IMAGING ACCESSORIES 303 HIGHLIGHTS OF THE CHAPTER 303
REFERENCES 306 9. OPTICAL BIOSENSORS 311 9.1 BIOSENSORS: AN INTRODUCTION
312 9.2 PRINCIPLES OF OPTICAL BIOSENSING 314 9.2.1 BIORECOGNITION 314
9.2.2 OPTICAL TRANSDUCTION 316 9.2.3 FLUORESCENCE SENSING 317 9.2.4
FLUORESCENCE ENERGY TRANSFER SENSORS 317 9.2.5 MOLECULAR BEACONS 320
9.2.6 OPTICAL GEOMETRIES OF BIOSENSING 321 9.3 SUPPORT FOR AND
IMMOBILIZATION OF BIORECOGNITION ELEMENTS 323 9.3.1 IMMOBILIZATION 323
9.4 FIBER-OPTIC BIOSENSORS 327 9.5 PLANAR WAVEGUIDE BIOSENSORS 331 9.6
EVANESCENT WAVE BIOSENSORS 334 9.7 INTERFEROMETRIC BIOSENSORS 338 9.8
SURFACE PLASMON RESONANCE BIOSENSORS 339 9.9 SOME RECENT NOVEL SENSING
METHODS 343 9.10 FUTURE DIRECTIONS 347 9.11 COMMERCIALLY AVAILABLE
BIOSENSORS 349 HIGHLIGHTS OF THE CHAPTER 349 REFERENCES 352 XUE CONTENTS
10. MICROARRAY TECHNOLOGY FOR GENOMICS AND PROTEOMICS 357 10.1
MICROARRAYS, TOOLS FOR RAPID MULTIPLEX ANALYSIS 358 10.2 DNA MICROARRAY
TECHNOLOGY 363 10.2.1 SPOTTED ARRAYS 363 10.2.2 OLIGONUCLEOTIDE ARRAYS
366 10.2.3 OTHER MICROARRAY TECHNOLOGIES 367 10.3 PROTEIN MICROARRAY
TECHNOLOGY 368 10.4 CELL MICROARRAY TECHNOLOGY 375 10.5 TISSUE
MICROARRAY TECHNOLOGY 379 10.6 SOME EXAMPLES OF APPLICATION OF
MICROARRAYS 379 10.7 FUTURE DIRECTIONS 382 10.8 COMPANIES PRODUCING
MICROARRAYS 383 HIGHLIGHTS OF THE CHAPTER 384 REFERENCES 386 11. FLOW
CYTOMETRY 390 11.1 A CLINICAL, BIODETECTION, AND RESEARCH TOOL 391 11.2
BASICS OF FLOW CYTOMETRY 394 11.2.1 BASIC STEPS 394 11.2.2 THE
COMPONENTS OF A FLOW CYTOMETER 395 11.2.3 OPTICAL RESPONSE 403 11.3
FLUOROCHROMES FOR FLOW CYTOMETRY 405 11.4 DATA MANIPULATION AND
PRESENTATION 408 11.5 SELECTED EXAMPLES OF APPLICATIONS 415 11.5.1
IMMUNOPHENOTYPING 415 11.5.2 DNA ANALYSIS 418 11.6 FUTURE DIRECTIONS 423
11.7 COMMERCIAL FLOW CYTOMETRY 426 HIGHLIGHTS OF THE CHAPTER 426
REFERENCES 430 12. LIGHT-ACTIVATED THERAPY: PHOTODYNAMIC THERAPY 433
12.1 PHOTODYNAMIC THERAPY: BASIC PRINCIPLES 434 12.2 PHOTOSENSITIZERS
FOR PHOTODYNAMIC THERAPY 437 12.2.1 PORPHYRIN DERIVATIVES 438 12.2.2
CHLORINS AND BACTERIOCHLORINS 440 12.2.3 BENZOPORPHYRIN DERIVATIVES 441
12.2.4 5-AMINOLAEVULINIC ACID (ALA) 442 12.2.5 TEXAPHYRINS 443 12.2.6
PHTHALOCYANINES AND NAPHTHALOCYANINES 443 12.2.7 CATIONIC
PHOTOSENSITIZERS 445 12.2.8 DENDRITIC PHOTOSENSITIZERS 445 CONTENTS XIII
12.3 APPLICATIONS OF PHOTODYNAMIC THERAPY 447 12.4 MECHANISM OF
PHOTODYNAMIC ACTION 450 12.5 LIGHT IRRADIATION FOR PHOTODYNAMIC THERAPY
453 12.5.1 LIGHT SOURCE 453 12.5.2 LASER DOSIMETRY 454 12.5.3 LIGHT
DELIVERY 455 12.6 TWO-PHOTON PHOTODYNAMIC THERAPY 455 12.7 CURRENT
RESEARCH AND FUTURE DIRECTIONS 457 HIGHLIGHTS OF THE CHAPTER 460
REFERENCES 461 13. TISSUE ENGINEERING WITH LIGHT 464 13.1 TISSUE
ENGINEERING AND LIGHT ACTIVATION 465 13.2 LASER TISSUE CONTOURING AND
RESTRUCTURING 467 13.3 LASER TISSUE WELDING 472 13.4 LASER TISSUE
REGENERATION 475 13.5 FEMTOLASER SURGERY 476 13.6 FUTURE DIRECTIONS 478
HIGHLIGHTS OF THE CHAPTER 479 REFERENCES 480 14. LASER TWEEZERS AND
LASER SCISSORS 482 14.1 NEW BIOLOGICAL TOOLS FOR MICROMANIPULATION BY
LIGHT 483 14.2 PRINCIPLE OF LASER TWEEZER ACTION 487 14.3 DESIGN OF A
LASER TWEEZER 490 14.4 OPTICAL TRAPPING USING NON-GAUSSIAN BEAMS 495
14.5 DYNAMIC HOLOGRAPHIE OPTICAL TWEEZERS 496 14.6 LASER SCISSORS 499
14.6.1 LASER PRESSURE CATAPULTING (LPC) 500 14.6.2 LASER CAPTURE
MICRODISSECTION (LCM) 502 14.7 SELECTED EXAMPLES OF APPLICATIONS 502
14.7.1 MANIPULATION OF SINGLE DNA MOLECULES 502 14.7.2 MOLECULAR MOTORS
506 14.7.3 PROTEIN-PROTEIN INTERACTIONS 507 14.7.4 LASER MICROBEAMS FOR
GENOMICS AND PROTEOMICS 509 14.7.5 LASER MANIPULATION IN PLANT BIOLOGY
510 14.7.6 LASER MICROMANIPULATION FOR REPRODUCTION MEDICINE 511 14.8
FUTURE DIRECTIONS 512 14.8.1 TECHNOLOGY OF LASER MANIPULATION 513 14.8.2
SINGLE MOLECULE BIOFUNCTIONS 513 14.9 COMMERCIALLY AVAILABLE LASER
MICROTOOLS 514 XIV CONTENTS HIGHLIGHTS OF THE CHAPTER 514 REFERENCES 516
15. NANOTECHNOLOGY FOR BIOPHOTONICS: BIONANOPHOTONICS 520 15.1 THE
INTERFACE OF BIOSCIENCE, NANOTECHNOLOGY, AND PHOTONICS 521 15.2
NANOCHEMISTRY 523 15.3 SEMICONDUCTOR QUANTUM DOTS FOR BIOIMAGING 528
15.4 METALLIC NANOPARTICLES AND NANORODS FOR BIOSENSING 532 15.5
UP-CONVERTING NANOPHORES 532 15.6 PEBBLE NANOSENSORS FOR IN VITRO
BIOANALYSIS 536 15.7 NANOCLINICS FOR OPTICAL DIAGNOSTICS AND TARGETED
THERAPY 537 15.8 FUTURE DIRECTIONS 539 HIGHLIGHTS OF THE CHAPTER 541
REFERENCES 543 16. BIOMATERIALS FOR PHOTONICS 545 16.1 PHOTONICS AND
BIOMATERIALS 545 16.2 BIODERIVED MATERIALS 548 16.3 BIOINSPIRED
MATERIALS 559 16.4 BIOTEMPLATES 560 16.5 BACTERIA AS BIOSYNTHESIZERS FOR
PHOTONIC POLYMERS 564 16.6 FUTURE DIRECTIONS 567 HIGHLIGHTS OF THE
CHAPTER 568 REFERENCES 569 INDEX 573 |
| adam_txt |
INTRODUCTION TO BIOPHOTONICS PARAS IM. PRASAD /CF)\WILEY-
VXJINTERSCIENCE A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE
XV ACKNOWLEGMENTS XVII 1. INTRODUCTION 1 1.1 BIOPHOTONICS*A NEW FRONTIER
1 1.2 AN INVITATION TO MULTIDISCIPLINARY EDUCATION, TRAINING, AND
RESEARCH 2 1.3 OPPORTUNITIES FOR BOTH BASIC RESEARCH AND BIOTECHNOLOGY
DEVELOPMENT 4 1.4 SCOPE OF THIS BOOK 5 2. FUNDAMENTALS OF LIGHT AND
MATTER 11 2.1 NATURE OF LIGHT 12 2.1.1 DUAL CHARACTER OF LIGHT 12 2.1.2
PROPAGATION OF LIGHT AS WAVES 14 2.1.3 COHERENCE OF LIGHT 17 2.1.4 LIGHT
AS PHOTON PARTICLES 19 2.1.5 OPTICAL ACTIVITY AND BIREFRINGENCE 20 2.1.6
DIFFERENT LIGHT SOURCES 21 2.2 QUANTIZED STATES OF MATTER 21 2.2.1
INTRODUCTORY CONCEPTS 21 2.2.2 QUANTIZED STATES OF ATOMS 24 2.2.3
QUANTIZED STATES OF MOLECULES: PARTITIONING OF MOLECULAR ENERGIES 27
2.2.4 ELECTRONIC STATES OF A MOLECULE 29 2.2.5 BONDING IN ORGANIC
MOLECULES 35 2.2.6 CONJUGATED ORGANIC MOLECULES 37 2.2.7 VIBRATIONAL
STATES OF A MOLECULE 39 2.3 INTERMOLECULAR EFFECTS 41 2.4
THREE-DIMENSIONAL STRUCTURES AND STEREOISOMERS 43 HIGHLIGHTS OF THE
CHAPTER 46 REFERENCES 48 VIII CONTENTS 3. BASICS OF BIOLOGY 50 3.1
INTRODUCTORY CONCEPTS 51 3.2 CELLULAR STRUCTURE 52 3.3 VARIOUS TYPES OF
CELLS 58 3.4 CHEMICAL BUILDING BLOCKS 60 3.5 INTERACTIONS DETERMINING
THREE-DIMENSIONAL STRUCTURES OF BIOPOLYMERS 68 3.6 OTHER IMPORTANT
CELLULAR COMPONENTS 72 3.7 CELLULAR PROCESSES 73 3.8 PROTEIN
CLASSIFICATION AND FUNCTION 82 3.9 ORGANIZATION OF CELLS INTO TISSUES 85
3.10 TYPES OF TISSUES AND THEIR FUNCTIONS 87 3.11 TUMORS AND CANCERS 88
HIGHLIGHTS OF THE CHAPTER 89 REFERENCES 91 4. FUNDAMENTALS OF
LIGHT-MATTER INTERACTIONS 92 4.1 INTERACTIONS BETWEEN LIGHT AND A
MOLECULE 93 4.1.1. NATURE OF INTERACTIONS 93 4.1.2. EINSTEIN'S MODEL OF
ABSORPTION AND EMISSION 95 4.2 INTERACTION OF LIGHT WITH A BULK MATTER
97 4.3 FATE OF EXCITED STATE 99 4.4 VARIOUS TYPES OF SPECTROSCOPY 102
4.5 ELECTRONIC ABSORPTION SPECTROSCOPY 105 4.6 ELECTRONIC LUMINESCENCE
SPECTROSCOPY 109 4.7 VIBRATIONAL SPECTROSCOPY 113 4.8 SPECTROSCOPY
UTILIZING OPTICAL ACTIVITY OF CHIRAL MEDIA 117 4.9 FLUORESCENCE
CORRELATION SPECTROSCOPY (FCS) 122 HIGHLIGHTS OF THE CHAPTER 124
REFERENCES 127 5. PRINCIPLES OF LASERS, CURRENT LASER TECHNOLOGY, AND
NONLINEAR OPTICS 129 5.1 PRINCIPLES OF LASERS 130 5.1.1 LASERS: A NEW
LIGHT SOURCE 130 5.1.2 PRINCIPLES OF LASER ACTION 131 5.1.3
CLASSIFICATION OF LASERS 135 5.1.4 SOME IMPORTANT LASERS FOR
BIOPHOTONICS 139 5.2 CURRENT LASER TECHNOLOGIES 139 5.3 QUANTITATIVE
DESCRIPTION OF LIGHT: RADIOMETRY 142 5.4 NONLINEAR OPTICAL PROCESSES
WITH INTENSE LASER BEAM 143 5.4.1 MECHANISM OF NONLINEAR OPTICAL
PROCESSES 143 CONTENTS IX 5.4.2 FREQUENCY CONVERSION BY A SECOND-ORDER
NONLINEAR OPTICAL PROCESS 145 5.4.3 SYMMETRY REQUIREMENT FOR A
SECOND-ORDER PROCESS 146 5.4.4 FREQUENCY CONVERSION BY A THIRD-ORDER
NONLINEAR OPTICAL PROCESS 148 5.4.5 MULTIPHOTON ABSORPTION 149 5.5
TIME-RESOLVED STUDIES 152 5.6 LASER SAFETY 154 HIGHLIGHTS OF THE CHAPTER
156 REFERENCES 157 6. PHOTOBIOLOGY 159 6.1 PHOTOBIOLOGY*AT THE CORE OF
BIOPHOTONICS 160 6.2 INTERACTION OF LIGHT WITH CELLS 160 6.2.1 LIGHT
ABSORPTION IN CELLS 161 6.2.2 LIGHT-INDUCED CELLULAR PROCESSES 163 6.2.3
PHOTOCHEMISTRY INDUCED BY EXOGENOUS PHOTOSENSITIZERS 167 6.3 INTERACTION
OF LIGHT WITH TISSUES 168 6.4 PHOTOPROCESSES IN BIOPOLYMERS 175 6.4.1
THE HUMAN EYE AND VISION 176 6.4.2 PHOTOSYNTHESIS 181 6.5 IN VIVO
PHOTOEXCITATION 186 6.5.1 FREE-SPACE PROPAGATION 186 6.5.2 OPTICAL FIBER
DELIVERY SYSTEM 187 6.5.3 ARTICULATED ARM DELIVERY 189 6.5.4 HOLLOW TUBE
WAVEGUIDES 190 6.6 IN VIVO SPECTROSCOPY 190 6.7 OPTICAL BIOPSY 191 6.8
SINGLE-MOLECULE DETECTION 195 HIGHLIGHTS OF THE CHAPTER 197 REFERENCES
199 7. BIOIMAGING: PRINCIPLES AND TECHNIQUES 203 7.1 BIOIMAGING: AN
IMPORTANT BIOMEDICAL TOOL 205 7.2 AN OVERVIEW OF OPTICAL IMAGING 206 7.3
TRANSMISSION MICROSCOPY 209 7.3.1 SIMPLE MICROSCOPE 209 7.3.2 COMPOUND
MICROSCOPE 210 7.3.3 KOHLER ILLUMINATION 212 7.3.4 NUMERICAL APERTURE
AND RESOLUTION 214 X CONTENTS 7.3.5 OPTICAL ABERRATIONS AND DIFFERENT
TYPES OF OBJECTIVES 215 7.3.6 PHASE CONTRAST MICROSCOPY 216 7.3.7
DARK-FIELD MICROSCOPY 216 7.3.8 DIFFERENTIAL INTERFERENCE CONTRAST
MICROSCOPY (DIC) 217 7.4 FLUORESCENCE MICROSCOPY 219 7.5 SCANNING
MICROSCOPY 220 7.6 INVERTED AND UPRIGHT MICROSCOPES 221 7.7 CONFOCAL
MICROSCOPY 221 7.8 MULTIPHOTON MICROSCOPY 223 7.9 OPTICAL COHERENCE
TOMOGRAPHY 225 7.10 TOTAL INTERNAL REFLECTION FLUORESCENCE MICROSCOPY
228 7.11 NEAR-FIELD OPTICAL MICROSCOPY 232 7.12 SPECTRAL AND
TIME-RESOLVED IMAGING 234 7.12.1 SPECTRAL IMAGING 235 7.12.2 BANDPASS
FILTERS 235 7.12.3 EXCITATION WAVELENGTH SELECTION 236 7.12.4
ACOUSTO-OPTIC TUNABLE FILTERS 236 7.12.5 LOCALIZED SPECTROSCOPY 237 7.13
FLUORESCENCE RESONANCE ENERGY TRANSFER (FRET) IMAGING 237 7.14
FLUORESCENCE LIFETIME IMAGING MICROSCOPY (FLIM) 238 7.15 NONLINEAR
OPTICAL IMAGING 240 7.15.1 SECOND-HARMONIC MICROSCOPY 241 7.15.2
THIRD-HARMONIC MICROSCOPY 243 7.15.3 COHERENT ANTI-STOKES RAMAN
SCATTERING (CARS) MICROSCOPY 243 7.16 FUTURE DIRECTIONS OF OPTICAL
BIOIMAGING 245 7.16.1 MULTIFUNCTIONAL IMAGING 245 7.16.2 4PI IMAGING 245
7.16.3 COMBINATION MICROSCOPES 246 7.16.4 MINIATURIZED MICROSCOPES 246
7.17 SOME COMMERCIAL SOURCES OF IMAGING INSTRUMENTS 246 HIGHLIGHTS OF
THE CHAPTER 246 REFERENCES 249 8. BIOIMAGING: APPLICATIONS 255 8.1
FLUOROPHORES AS BIOIMAGING PROBES 256 8.1.1 ENDOGENOUS FLUOROPHORES 256
8.1.2 EXOGENOUS FLUOROPHORES 257 8.1.3 ORGANOMETALLIC COMPLEX
FLUOROPHORES 264 8.1.4 NEAR-IR AND IR FLUOROPHORE 265 CONTENTS XI 8.1.5
TWO-PHOTON FLUOROPHORES 265 8.1.6 INORGANIC NANOPARTICLES 269 8.2 GREEN
FLUORESCENT PROTEIN 269 8.3 IMAGING OF ORGANELLES 271 8.4 IMAGING OF
MICROBES 273 8.4.1 CONFOCAL MICROSCOPY 273 8.4.2 NEAR-FIELD IMAGING 274
8.5 CELLULAR IMAGING 276 8.5.1 PROBING CELLULAR IONIC ENVIRONMENT 276
8.5.2 INTRACELLULAR PH MEASUREMENTS 277 8.5.3 OPTICAL TRACKING OF
DRUG-CELL INTERACTIONS 279 8.5.4 IMAGING OF NUCLEIC ACIDS 281 8.5.5
CELLULAR INTERACTIONS PROBED BY FRET/FLIM IMAGING 287 8.6 TISSUE IMAGING
289 8.7 IN VIVO IMAGING 294 8.8 FUTURE DIRECTIONS 301 8.9 COMMERCIALLY
AVAILABLE OPTICAL IMAGING ACCESSORIES 303 HIGHLIGHTS OF THE CHAPTER 303
REFERENCES 306 9. OPTICAL BIOSENSORS 311 9.1 BIOSENSORS: AN INTRODUCTION
312 9.2 PRINCIPLES OF OPTICAL BIOSENSING 314 9.2.1 BIORECOGNITION 314
9.2.2 OPTICAL TRANSDUCTION 316 9.2.3 FLUORESCENCE SENSING 317 9.2.4
FLUORESCENCE ENERGY TRANSFER SENSORS 317 9.2.5 MOLECULAR BEACONS 320
9.2.6 OPTICAL GEOMETRIES OF BIOSENSING 321 9.3 SUPPORT FOR AND
IMMOBILIZATION OF BIORECOGNITION ELEMENTS 323 9.3.1 IMMOBILIZATION 323
9.4 FIBER-OPTIC BIOSENSORS 327 9.5 PLANAR WAVEGUIDE BIOSENSORS 331 9.6
EVANESCENT WAVE BIOSENSORS 334 9.7 INTERFEROMETRIC BIOSENSORS 338 9.8
SURFACE PLASMON RESONANCE BIOSENSORS 339 9.9 SOME RECENT NOVEL SENSING
METHODS 343 9.10 FUTURE DIRECTIONS 347 9.11 COMMERCIALLY AVAILABLE
BIOSENSORS 349 HIGHLIGHTS OF THE CHAPTER 349 REFERENCES 352 XUE CONTENTS
10. MICROARRAY TECHNOLOGY FOR GENOMICS AND PROTEOMICS 357 10.1
MICROARRAYS, TOOLS FOR RAPID MULTIPLEX ANALYSIS 358 10.2 DNA MICROARRAY
TECHNOLOGY 363 10.2.1 SPOTTED ARRAYS 363 10.2.2 OLIGONUCLEOTIDE ARRAYS
366 10.2.3 OTHER MICROARRAY TECHNOLOGIES 367 10.3 PROTEIN MICROARRAY
TECHNOLOGY 368 10.4 CELL MICROARRAY TECHNOLOGY 375 10.5 TISSUE
MICROARRAY TECHNOLOGY 379 10.6 SOME EXAMPLES OF APPLICATION OF
MICROARRAYS 379 10.7 FUTURE DIRECTIONS 382 10.8 COMPANIES PRODUCING
MICROARRAYS 383 HIGHLIGHTS OF THE CHAPTER 384 REFERENCES 386 11. FLOW
CYTOMETRY 390 11.1 A CLINICAL, BIODETECTION, AND RESEARCH TOOL 391 11.2
BASICS OF FLOW CYTOMETRY 394 11.2.1 BASIC STEPS 394 11.2.2 THE
COMPONENTS OF A FLOW CYTOMETER 395 11.2.3 OPTICAL RESPONSE 403 11.3
FLUOROCHROMES FOR FLOW CYTOMETRY 405 11.4 DATA MANIPULATION AND
PRESENTATION 408 11.5 SELECTED EXAMPLES OF APPLICATIONS 415 11.5.1
IMMUNOPHENOTYPING 415 11.5.2 DNA ANALYSIS 418 11.6 FUTURE DIRECTIONS 423
11.7 COMMERCIAL FLOW CYTOMETRY 426 HIGHLIGHTS OF THE CHAPTER 426
REFERENCES 430 12. LIGHT-ACTIVATED THERAPY: PHOTODYNAMIC THERAPY 433
12.1 PHOTODYNAMIC THERAPY: BASIC PRINCIPLES 434 12.2 PHOTOSENSITIZERS
FOR PHOTODYNAMIC THERAPY 437 12.2.1 PORPHYRIN DERIVATIVES 438 12.2.2
CHLORINS AND BACTERIOCHLORINS 440 12.2.3 BENZOPORPHYRIN DERIVATIVES 441
12.2.4 5-AMINOLAEVULINIC ACID (ALA) 442 12.2.5 TEXAPHYRINS 443 12.2.6
PHTHALOCYANINES AND NAPHTHALOCYANINES 443 12.2.7 CATIONIC
PHOTOSENSITIZERS 445 12.2.8 DENDRITIC PHOTOSENSITIZERS 445 CONTENTS XIII
12.3 APPLICATIONS OF PHOTODYNAMIC THERAPY 447 12.4 MECHANISM OF
PHOTODYNAMIC ACTION 450 12.5 LIGHT IRRADIATION FOR PHOTODYNAMIC THERAPY
453 12.5.1 LIGHT SOURCE 453 12.5.2 LASER DOSIMETRY 454 12.5.3 LIGHT
DELIVERY 455 12.6 TWO-PHOTON PHOTODYNAMIC THERAPY 455 12.7 CURRENT
RESEARCH AND FUTURE DIRECTIONS 457 HIGHLIGHTS OF THE CHAPTER 460
REFERENCES 461 13. TISSUE ENGINEERING WITH LIGHT 464 13.1 TISSUE
ENGINEERING AND LIGHT ACTIVATION 465 13.2 LASER TISSUE CONTOURING AND
RESTRUCTURING 467 13.3 LASER TISSUE WELDING 472 13.4 LASER TISSUE
REGENERATION 475 13.5 FEMTOLASER SURGERY 476 13.6 FUTURE DIRECTIONS 478
HIGHLIGHTS OF THE CHAPTER 479 REFERENCES 480 14. LASER TWEEZERS AND
LASER SCISSORS 482 14.1 NEW BIOLOGICAL TOOLS FOR MICROMANIPULATION BY
LIGHT 483 14.2 PRINCIPLE OF LASER TWEEZER ACTION 487 14.3 DESIGN OF A
LASER TWEEZER 490 14.4 OPTICAL TRAPPING USING NON-GAUSSIAN BEAMS 495
14.5 DYNAMIC HOLOGRAPHIE OPTICAL TWEEZERS 496 14.6 LASER SCISSORS 499
14.6.1 LASER PRESSURE CATAPULTING (LPC) 500 14.6.2 LASER CAPTURE
MICRODISSECTION (LCM) 502 14.7 SELECTED EXAMPLES OF APPLICATIONS 502
14.7.1 MANIPULATION OF SINGLE DNA MOLECULES 502 14.7.2 MOLECULAR MOTORS
506 14.7.3 PROTEIN-PROTEIN INTERACTIONS 507 14.7.4 LASER MICROBEAMS FOR
GENOMICS AND PROTEOMICS 509 14.7.5 LASER MANIPULATION IN PLANT BIOLOGY
510 14.7.6 LASER MICROMANIPULATION FOR REPRODUCTION MEDICINE 511 14.8
FUTURE DIRECTIONS 512 14.8.1 TECHNOLOGY OF LASER MANIPULATION 513 14.8.2
SINGLE MOLECULE BIOFUNCTIONS 513 14.9 COMMERCIALLY AVAILABLE LASER
MICROTOOLS 514 XIV CONTENTS HIGHLIGHTS OF THE CHAPTER 514 REFERENCES 516
15. NANOTECHNOLOGY FOR BIOPHOTONICS: BIONANOPHOTONICS 520 15.1 THE
INTERFACE OF BIOSCIENCE, NANOTECHNOLOGY, AND PHOTONICS 521 15.2
NANOCHEMISTRY 523 15.3 SEMICONDUCTOR QUANTUM DOTS FOR BIOIMAGING 528
15.4 METALLIC NANOPARTICLES AND NANORODS FOR BIOSENSING 532 15.5
UP-CONVERTING NANOPHORES 532 15.6 PEBBLE NANOSENSORS FOR IN VITRO
BIOANALYSIS 536 15.7 NANOCLINICS FOR OPTICAL DIAGNOSTICS AND TARGETED
THERAPY 537 15.8 FUTURE DIRECTIONS 539 HIGHLIGHTS OF THE CHAPTER 541
REFERENCES 543 16. BIOMATERIALS FOR PHOTONICS 545 16.1 PHOTONICS AND
BIOMATERIALS 545 16.2 BIODERIVED MATERIALS 548 16.3 BIOINSPIRED
MATERIALS 559 16.4 BIOTEMPLATES 560 16.5 BACTERIA AS BIOSYNTHESIZERS FOR
PHOTONIC POLYMERS 564 16.6 FUTURE DIRECTIONS 567 HIGHLIGHTS OF THE
CHAPTER 568 REFERENCES 569 INDEX 573 |
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| id | DE-604.BV022425653 |
| illustrated | Illustrated |
| index_date | 2024-07-02T17:27:24Z |
| indexdate | 2024-07-20T08:36:25Z |
| institution | BVB |
| isbn | 0471287709 |
| language | English |
| lccn | 2003000578 |
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| spelling | Prasad, Paras N. Verfasser aut Introduction to biophotonics Paras N. Prasad Hoboken, NJ Wiley-Interscience 2003 xvii, 593 p., [8] p. of plates ill. (some col.) 24 cm txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Biocapteurs Nanotechnologie Photobiologie Photonique Photobiology Photonics Biosensors Nanotechnology Biophotonik (DE-588)7616461-5 gnd rswk-swf Biophotonik (DE-588)7616461-5 s DE-604 http://www.loc.gov/catdir/description/wiley038/2003000578.html Publisher description http://www.loc.gov/catdir/toc/wiley031/2003000578.html Table of contents only http://www.loc.gov/catdir/enhancements/fy0614/2003000578-b.html Contributor biographical information http://www.e-streams.com/es0610/es0610_2771.html Book review (E-STREAMS) GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015633928&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Prasad, Paras N. Introduction to biophotonics Biocapteurs Nanotechnologie Photobiologie Photonique Photobiology Photonics Biosensors Nanotechnology Biophotonik (DE-588)7616461-5 gnd |
| subject_GND | (DE-588)7616461-5 |
| title | Introduction to biophotonics |
| title_auth | Introduction to biophotonics |
| title_exact_search | Introduction to biophotonics |
| title_exact_search_txtP | Introduction to biophotonics |
| title_full | Introduction to biophotonics Paras N. Prasad |
| title_fullStr | Introduction to biophotonics Paras N. Prasad |
| title_full_unstemmed | Introduction to biophotonics Paras N. Prasad |
| title_short | Introduction to biophotonics |
| title_sort | introduction to biophotonics |
| topic | Biocapteurs Nanotechnologie Photobiologie Photonique Photobiology Photonics Biosensors Nanotechnology Biophotonik (DE-588)7616461-5 gnd |
| topic_facet | Biocapteurs Nanotechnologie Photobiologie Photonique Photobiology Photonics Biosensors Nanotechnology Biophotonik |
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