LEADER 10761nam 2200481 450 001 9910484513903321 005 20211210121837.0 010 $a981-334-392-3 035 $a(CKB)4100000011902656 035 $a(MiAaPQ)EBC6577293 035 $a(Au-PeEL)EBL6577293 035 $a(OCoLC)1249471143 035 $a(PPN)255294409 035 $a(EXLCZ)994100000011902656 100 $a20211210d2021 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aProgress in the science of functional dyes /$fYousuke Ooyama, Shigeyuki Yagi, editors 210 1$aSingapore :$cSpringer,$d[2021] 210 4$d©2021 215 $a1 online resource (597 pages) 311 $a981-334-391-5 327 $aIntro -- Preface -- Contents -- Part I Important Structures for Functional Dyes -- 1 Polymethine Dyes -- 1.1 Introduction -- 1.2 Bases of Polymethine Dyes -- 1.2.1 Classification of Polymethine Dyes -- 1.2.2 Synthesis -- 1.2.3 Basic Properties of Polymethine Dyes -- 1.3 Topics in Polymethine Dyes -- 1.3.1 Data Recording Materials -- 1.3.2 Sensitizers for DSSCs -- 1.3.3 Liquid Polymethine Dyes -- 1.3.4 Fluorescence of Polymethine Dyes -- References -- 2 Squaraine Dyes -- 2.1 General Remarks -- 2.2 Electronic Absorption and Fluorescence Properties -- 2.3 Synthesis of Squaraine Dyes by Condensation Reaction -- 2.4 Squaraine Dyes Synthesized by Pd-Catalyzed Cross-Coupling -- 2.5 Functionalization of Squaraine Dyes -- 2.6 Squaraine-Based Polymers and Oligomers -- 2.7 Miscellaneous Containing Squaraine Chromophores -- 2.8 Supramolecular Assembly of Squaraine Dyes -- 2.9 Conclusions -- References -- 3 Porphyrins: Syntheses and Properties -- 3.1 Introduction -- 3.2 meso-Tetra-substituted Porphyrins -- 3.2.1 Condensation of Pyrrole and Aldehyde -- 3.2.2 Lindsey Synthesis Using Dipyrrylmethanes -- 3.2.3 Porphyrins with Mixed meso-Substituents -- 3.2.4 meso-Substituted Porphyrins as Photosensitizers -- 3.3 Porphyrins Substituted at Pyrrole ?-Positions -- 3.3.1 Barton-Zard Pyrrole Synthesis -- 3.3.2 Benzoporphyrins -- 3.3.3 Reactions of Porphyrins at Pyrrole ?-Positions -- 3.4 ?-Extended Porphyrins -- 3.4.1 Electrophilic Substitution with meso-Aryl Groups -- 3.4.2 Oxidative Coupling of ?-Aminoporphyrins -- 3.4.3 Oxidative Fusion of Porphyrin Periphery -- References -- 4 Phthalocyanine and Related Analogues -- 4.1 Introduction -- 4.2 Synthesis of Phthalocyanine and Subphthalocyanine -- 4.2.1 Synthesis of Symmetric H2Pcs -- 4.2.2 Synthesis of Low-Symmetry Pcs -- 4.2.3 Synthesis of SubPc -- 4.3 UV/vis Absorption Properties of Pc and SubPc. 327 $a4.3.1 Gouterman's Four-Orbital Model and Theoretical Description of Absorption Properties of Pc and SubPc -- 4.3.2 MCD Spectroscopy in Pc Chemistry -- 4.3.3 UV/vis Absorption and MCD Spectra of Perturbed Pc and SubPc -- 4.4 Recent Examples of Pc Analogues with Unique Optical Properties -- 4.4.1 Phosphorous(v) Pc as an NIR Chromophore -- 4.4.2 Contracted and Expanded Pc Analogues with Unique Properties -- 4.5 Summary and Outlook -- References -- 5 BODIPY Dyes and Their Analogues -- 5.1 Three-Coordinate Organoboron Compounds -- 5.2 Four-Coordinate Organoboron Complexes -- 5.2.1 Boron Complexation -- 5.2.2 Representation Method for Four-Coordinate Organoboron Complexes -- 5.2.3 N^N Type Organoboron Complexes -- 5.2.4 BODIPY Analogue -- 5.2.5 O^O Type Organoboron Complex -- 5.2.6 N^O Type Organoboron Complex -- 5.2.7 N^C Monoboron Complex -- 5.3 Tridentate Boron Complex -- 5.4 Multinuclear Boron Complex -- References -- Part II Properties of Functional Dyes -- 6 Molecular and Crystal Structures of Polymorphic Organic Dyes and Coloured Organic Compounds -- 6.1 Introduction -- 6.2 Examples of Organic Dyes -- 6.2.1 CuPc (CUPOCY) and Oxotitanyl Pc (BITSAY) -- 6.2.2 QA (QNACRD) and Its N,N'-Dibutylated Derivative (WAMFAS) -- 6.2.3 2,5-Diamino-3,6-Dicyano Pyrazine Dyes (KELFOX and KELGEO) -- 6.3 Examples of Coloured Organic Compounds -- 6.3.1 ROY (QAXMEH) -- 6.3.2 1,8-Dihydroxyanthraquinone (DHANQU) -- 6.3.3 Two Azomethine Compounds -- 6.4 Summary -- References -- 7 Photochromism -- 7.1 Introduction -- 7.2 Azobenzene -- 7.3 Hexaarylbiimidazole -- 7.4 Spiropyran, Spirooxazine, Naphthopyran -- 7.5 Fulgide -- 7.6 Diarylethene -- References -- 8 Red and Near-IR Fluorescent Two-Photon Absorption Dyes -- 8.1 Introduction -- 8.2 Fluorescent Two-Photon Absorption Dyes -- 8.2.1 History and Demands -- 8.2.2 Red- and Near-IR-Light-Emitting Two-Photon Absorption Dyes. 327 $a8.2.3 Biological Application of Red- and Near-IR-Light-Emitting Two-Photon Absorption Dyes -- 8.3 Two-Photon Absorption Dyes Bearing Aggregation-Induced Emission Nature -- 8.4 Conclusions -- References -- 9 Molecular Designs for Solid-State Luminescent Properties and Recent Progresses on the Development of Functional Luminescent Solid Materials -- 9.1 Introduction -- 9.2 Mixture Materials -- 9.3 Steric Effect -- 9.4 Aggregation-Induced Emission -- 9.4.1 o-Carborane Materials -- 9.4.2 Boron Complex -- 9.5 Rational Design for AIE-Active Molecules -- 9.6 Conclusion -- References -- 10 Circularly Polarized Luminescence (CPL) Based on Planar Chiral [2.2]Paracyclophane -- 10.1 Introduction: Circularly Polarized Luminescence (CPL) -- 10.2 Introduction: [2.2]Paracyclophane and Its Planar Chirality -- 10.3 Synthesis of Enantiopure Disubstituted [2.2]Paracyclophane and Optically Active ?-Stacked Molecules -- 10.4 Synthesis of Enantiopure 4,7,12,15-Tetrasubstituted [2.2]Paracyclophane and Optically Active ?-Stacked Molecules -- 10.5 Synthesis of Enantiopure Bis-(Para)-Pseudo-Ortho-Tetrasubstituted [2.2]Paracyclophane and Syntheses of Optically Active ?-Stacked Molecules -- 10.6 Synthesis of Enantiopure Bis-(Para)-Pseudo-Meta-Tetrasubstituted [2.2]Paracyclophane -- 10.7 Conclusion -- References -- Part III Applications of Functional Dyes -- 11 Fluorescent Chemosensors -- 11.1 Definition of "Fluorescent Chemosensors" -- 11.2 Molecular Structure of Fluorescent Chemosensors -- 11.2.1 Components -- 11.2.2 Representative Structures -- 11.3 Dye Selection in Fluorescent Chemosensors -- 11.3.1 Absorption/Fluorescence Wavelengths -- 11.3.2 Brightness -- 11.3.3 Photostability -- 11.3.4 Two-Photon Absorption Cross Section -- 11.3.5 Sensitivity to Environmental Condition -- 11.3.6 Other Considerations -- 11.4 Operation Principles of Fluorescent Chemosensors. 327 $a11.4.1 "Primordial" Fluorescent Chemosensors Based on Host-Guest Chemistry -- 11.4.2 Photo-Induced Electron Transfer -- 11.4.3 Heavy Atom Effect -- 11.4.4 Fo?rster Resonance Energy Transfer -- 11.4.5 Formation of Emissive ?-System via Chemical Reaction -- 11.4.6 Excimer Emission -- 11.4.7 Assembly- or Disassembly-Induced Emission -- 11.4.8 Intramolecular Charge Transfer -- 11.4.9 Intramolecular Proton Transfer -- 11.5 Outlook: Fluorescent Nanoparticles as Next-Generation Fluorophores -- References -- 12 White-Light Emissive Materials Based on Supramolecular Approach -- 12.1 Introduction -- 12.2 Hydrogen Bonding -- 12.3 Metallo-coordination -- 12.4 Host-Guest Interaction -- 12.5 Self-assembly -- 12.6 Supramolecular Gels -- 12.7 Dynamic Covalent Bond -- 12.8 Summary -- References -- 13 Photodynamic Therapy -- 13.1 Introduction -- 13.2 Methods for Evaluation of Singlet Oxygen 1O2 Generation -- 13.3 Porphyrin-Based Photosensitizing Dyes -- 13.4 Phthalocyanine-Based Photosensitizing Dyes -- 13.5 BODIPY-Based Photosensitizing Dyes -- 13.6 Xanthene and Phenothiazinium Photosensitizing Dyes -- 13.7 Heteropolycyclic Photosensitizing Dyes -- 13.8 Pyrylium, Azinium, and Squalene Photosensitizing Dyes -- 13.9 Photosensitizing Dyes Based on Transition Metal (Ru, Ir, Pt) Complex -- 13.10 Conclusions and Perspectives -- References -- 14 Photoenergy Conversion (Dye-Sensitized Solar Cells) -- 14.1 Introduction -- 14.2 Dye Sensitizers for N-TiO2-Based Type-I DSSCs -- 14.2.1 Ruthenium(II) Polypyridyl Complex Dyes -- 14.2.2 Polyene Dyes -- 14.2.3 Coumarin Dyes -- 14.2.4 Thiophene-Based Dyes -- 14.2.5 Hemicyanine Dyes -- 14.2.6 Indoline Dyes -- 14.2.7 Heteropolycyclic Dyes -- 14.2.8 Xanthene Dyes -- 14.2.9 Perylene Dyes -- 14.2.10 Porphyrin Dyes -- 14.2.11 Merocyanine Dyes -- 14.2.12 Squaraine Dyes -- 14.2.13 Cyanine Dyes -- 14.2.14 Phthalocyanine Dyes. 327 $a14.2.15 Boron Dipyrromethene (BODIPY) Dyes -- 14.2.16 Phenothiazine and Phenoxazine Dyes -- 14.2.17 Cyclopentadithiophene and Dithienosilole (DTS) Dyes -- 14.2.18 Polymeric Dyes -- 14.2.19 D-?-a Dyes with Pyridine, Pyrazine, and Triazine as Anchoring Group -- 14.2.20 Double-Branched Double-Anchoring Dyes -- 14.2.21 Co-Sensitized DSSC Employing Two Dyes -- 14.3 N-ZnO-Based DSSCs -- 14.3.1 Xanthene Dyes -- 14.3.2 Indoline Dyes -- 14.3.3 Perylene Dyes -- 14.3.4 Heptamethine-Cyanine Dyes -- 14.3.5 Squaraine Dyes -- 14.4 Catechol Dyes for N-TiO2-Based Type-II DSSCs -- 14.5 P-NiO-Based DSSCs -- 14.5.1 Triphenylamine Dyes -- 14.5.2 Fluorene Dyes -- 14.5.3 Diketopyrrolopyrrole Dyes -- 14.5.4 Squaraine Dyes -- 14.5.5 Perylene Monoimide Dyes -- 14.6 Summary -- References -- 15 ?-Conjugated Polymers Incorporating Naphthalene-Based Nitrogen-Containing Heteroaromatics for Organic Photovoltaics -- 15.1 Introduction -- 15.2 Synthesis of Naphthalene-Based Nitrogen-Containing Heteroaromatic Rings -- 15.3 ?-Conjugated Polymers Incorporating Naphthalene-Based Nitrogen-Containing Heteroaromatic Rings -- 15.3.1 NTz-Based Polymers -- 15.3.2 NOz-Based Polymers -- 15.3.3 TZNT-Based Polymers -- 15.3.4 NPz-Based Polymers -- 15.3.5 NOT-Based Polymer -- 15.4 Summary -- References -- 16 Luminescent Materials for Organic Light-Emitting Diodes -- 16.1 Introduction -- 16.2 Fluorescent Materials: First-Generation Emitters -- 16.2.1 Fluorescent Emitters Based on Low-Mass Molecular Systems -- 16.2.2 Fluorescent Conjugated Polymers and Dendrimers -- 16.3 Phosphorescent Materials: Second-Generation Emitters -- 16.3.1 Phosphorescent Emitters Based on Organoiridium(III) Complexes -- 16.3.2 Phosphorescent Emitters Based on Organoplatinum(II) Complexes -- 16.4 TADF Materials: Third Generation Emitters -- 16.4.1 Advantage of TADF Emitters in OLED Applications. 327 $a16.4.2 TADF Emitters Based on Donor-Acceptor Structures. 606 $aDyes and dyeing$xChemistry 615 0$aDyes and dyeing$xChemistry. 676 $a667.2 702 $aOoyama$b Yousuke 702 $aYagi$b Shigeyuki 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910484513903321 996 $aProgress in the Science of Functional Dyes$91892910 997 $aUNINA