NANOPARTICLE TECHNOLOGY HANDBOOK
THIRDEDITION
Editedby MAKIO NAITO
KIYOSHI NOGI
TOYOKAZU YOKOYAMA
KOUHEI HOSOKAWA
Elsevier
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6.Developmentofthe ThermoresponsiveMagnetic NanoparticleandItsDeployment intheBiotechnologyField
AKIHIKOKONDO
1.MagneticNanoparticleMaterial427
2.WhatIsaThermoresponsive Polymer?427
3.ThermoresponsiveMagnetic Nanoparticles428
4.ApplicationExamplesofthe ThermoresponsiveMagneticNanoparticles totheBiotechnologyField429
5.FuturePerspective434 References434
7.PinpointDrugandGeneDelivery
SHUN’ICHIKURODA
1.Bio-Nanocapsules435
2.PotentialApplicationsofBio-Nanocapsule437
3.Assignment438
4.Conclusion438 References438
8.ACancerTreatment StrategyThatCombinestheUseof Inorganic/BiocomplexNanoparticles WithConventionalRadiation Therapy
KENTAMORITA,YUYANISHIMURA, TAKAHIROSUZUKI,CHIAKIOGINO, ANDAKIHIKOKONDO
1.Introduction439
2.ScreeningforInorganicNanoparticles ApplicabletoRadiosensitizing440
3.CancerTherapyUsingaCombination ofInorganicNanoparticlesandX-Ray Irradiation440
4.Bio-Nanocapsule441
5.Conclusions442 References443
9.DevelopmentofFunctionalSkinCare CosmeticsUsingBiodegradablePLGA Nanospheres
HIROYUKITSUJIMOTOANDKAORIHARA
1.NanocosmeticsThatWhitenSkin andEliminateWrinkles445
2.EvaluationoftheCutaneousPermeabilityof PLGANanospheresandTheirFunctional Effect446
3.FunctionalCosmeticsUsingPLGA Nanospheres448 References450
10.PLGANanoparticleDesignand PreparationforDDSandMedical Device
HIROYUKITSUJIMOTOANDYOSHIAKI KAWASHIMA
1.Introduction451
2.PLGANanoparticleDDSs451 3.AppliedTechnologyWithPLGA NanoparticlesasBaseCarrier452
4.PLGANanoparticleSystemPlatforms andImplementationinNanomedical Systems454
5.Conclusion459 References460
11.PLGANanosphereTechnologyfor NovelNanomedicineandFunctional Cosmetics
YUSUKETSUKADA,AIKOSASAI,HIROYUKI TSUJIMOTO,HIROMITSUYAMAMOTO,ANDYOSHIAKI KAWASHIMA
1.Introduction461
2.PreparationMethodandApplicationfor PracticalUseofPLGANS461
3.DrugDeliverySystemFormulationand PharmacologicalPerformanceofPLGANS462
4.ApplicationofPLGANSforCosmetics464
5.Conclusions466 References467
12.DeliverytotheBrain HIROMITSUYAMAMOTO
1.SurfaceModificationtoImprovetheNanoparticle DistributionintheBrain469
2.EffectofAdministrationRouteontheBrain Distribution471
3.PerspectiveofBrainTargetingWith Nanoparticles472 References472
13.BioimagingWith QuantumDots KENJIYAMAMOTO
1.DevelopmentsofQuantumDots473
2.DevelopmentofBioimaging474
3.BioimagingandQuantumDots474
4.QuantumDotsLabelfortheAntibody476
33.PreparationofSolidElectrolyteParticles andSolid-SolidInterfacesforAll-SolidStateBatteries
MASAHIROTATSUMISAGOANDAKITOSHIHAYASHI
1.Introduction579
2.PreparationofLithium-IonConducting GlassParticlesviaMechanochemistry579
3.FormationofFavorableSolid-Solid InterfacesinSolid-StateBatteries581 4.Conclusions584 References584
34.DevelopmentandMulti-Functionalization ofHigh-FunctionalSeparationMembranes
AKIMASAYAMAGUCHI
1.GasSeparation585
2.LiquidSeparation587 References588
35.DevelopmentofaHigh-Performance SecondaryBatterybyControllingthe SurfaceStructure
SUSUMUYONEZAWA
1.AnodeofaNickel HydrogenBattery591
2.CathodeoftheNickel HydrogenBattery591
3.CathodeofLithium-IonBattery593
4.AnodeoftheLithium-IonBattery594 References594
CategoryC-ElectronicandMagnetic Materials,Memories,LightEmitting Materials,Displays
36.DevelopmentofBrightPhosphorsUsing GlassesIncorporatingSemiconductor Nanoparticles
MASANORIANDO,CHUNLIANGLI,ANDNORIOMURASE
1.SynthesesofHighlyPhotoluminescent SemiconductorNanoparticlesbyanAqueous SolutionMethod597
2.PreparationofGlassPhosphorsIncorporating SemiconductorNanoparticlesbyaSol Gel Method598 References600
37.CloselyPackedColloidalCrystal AssembledWithNanoparticlesandIts ApplicationforSmartMaterialsWith TunableStructuralColor
HIROSHIFUDOUZI
1.CloselyPackedColloidalCrystalFilms601
2.StructuralColorofColloidalCrystal andItsTuningMechanism601
3.TunableStructuralColorbySwelling WithLiquid603
4.TunableStructuralColorbyApplying MechanicalStress604
5.SummaryandOutlook604 References605
38.PracticalIssueofNanosized ColorantParticles
KAZUYUKIHAYASHI
1.Introduction607
2.PreparationofNanosizedColorant ParticlesandImprovementof FunctionalProperties607
3.Conclusion612 References612
39.ExpressionofOpticalFunctionby NanostructureUsingFemtosecondLaser Processing
KAZUYUKIHIRAO
1.Space-SelectiveValenceStateManipulationof Rare-EarthIonsInsideGlasses613
2.PrecipitationControlofGoldNanoparticles InsideTransparentMaterialsbya FemtosecondLaser614
3.NanogratingFabrication616 References617
40.CeramicFillersforHighFrequency DielectricComposites
YUSUKEIMAI
1.Introduction619
2.Particle-FilledPolymerComposites asDielectricMaterials620
3.DesignofDielectricConstantsof Composites621
4.ParticleSizeEffectonDielectricLoss622
5.ControlofTemperature-Dependent PropertiesoftheComposites622 References623
41.MaterialDesignofElectronicLiquid PowderUsedinNovel-TypeBistable ReflectiveDisplay(QR-LPD)
NORIHIKOKAGA,HIROYUKIANZAI,AND MASASHIOTSUKI
1.Introduction625
2.OverviewofQR-LPD625
3.AboutElectronicLiquid Powder626
4.MeasurementofElectrostatic Properties627
5.MeasurementofAdhesiveForce628
6.MaterialDesign628 7.Conclusion630
References630
42.SensingBasedonLocalizedSurface PlasmonResonanceinMetallic Nanoparticles
KOTAROKAJIKAWA
1.LocalizedSurfacePlasmon631 2.TwoSensingMethodsUsingPlasmon632 References633
43.DevelopmentofPhotonicCrystal ResonatorsforTerahertzWaveSensingby UsingNanoparticleStereolithography SOSHUKIRIHARA
References636
44.ACOverheadTransmissionLine Audible-NoiseReductionMeasuresUsing SurfaceImprovement
KIYOTOMIMIYAJIMA
1.AudibleNoiseofACOverhead TransmissionLines637
2.WettingPropertyofPowerLines637
3.PreparationofTestPowerLines638
4.FeaturesofTitaniumOxideThermal-Sprayed Films639
5.Audible-NoiseMeasurement639 References641
45.DevelopmentofPhotonicCrystals BasedonNanoparticleAssembly HIDEKIT.MIYAZAKI
1.NanoparticleAssemblyTechnique643 2.FabricationofPhotonicCrystalsby NanoparticleAssemblyTechnique644 References646
46.MicroelectronicsPackagingbyMetal NanoparticlePastes MASAMINAKAMOTO
1.ConductivePasteTechniqueandMetal NanoparticlePaste647
2.Low-TemperatureFiringandFineElectronic CircuitPatternFormationbyScreen Printing647
3.DirectFormationoftheElectronicCircuit PatternbyInkjetPrinting649
4.ApplicationastheJoiningMaterials650 References650
47.DevelopmentofNovelFerroelectric Materials
YUJINOGUCHIANDMASARUMIYAYAMA
1.CrystalStructureofBismuthLayer Structured Ferroelectrics651
2.CrystalGrowthandExperimentalProcedure652
3.LayeredStructure,Dielectric,and LeakageCurrentPropertiesofBiT BBTi Crystals652
4.GiantPolarizationinBiT BBTi Crystals653 References654
48.DevelopmentofMagnetorheological FluidbyUsingIronNanoparticlesandthe ApplicationtoHapticsDevices JUNICHINOMA
1.Introduction655
2.PreparationoftheNanomagnetorheological Fluid656
3.ParticleClusterBehaviorsof MagnetorheologicalFluidsinShear FlowMode657
4.ApplicationsofNanomagnetorheological Fluid658 References659
49.HighPerformanceWiringBasedon NanoweldingTechnologyforPrinted Electronics
JINTINGJIU,MINORUUESHIMAANDKATSUAKI SUGANUMA
1.Introduction661
2.TheDevelopmentofNanoweldingTechnology661
3.TheApplicationofNanoweldingTechnology663 References666
50.DevelopmentofNewPhosphors KENJITODA
1.HistoryofDevelopmentofNanophosphor667
2.PropertiesofRare-EarthNanophosphor667
3.DevelopmentTrendofNewNanophosphor668 References669
59.DevelopmentofNewMaterialsbythe MildDispersionofNanoparticlesinSlurries byBeadMilling
TOSHIHIROISHII
1.Introduction715 2.BeadMill715
3.OverdispersionandMild Dispersion717
4.BeadMillingfortheMassProductionof Nanoparticles719
5.Conclusions719 References719
60.Three-DimensionalStructuralAnalysis ofNanocompositeMaterialsContaining Nanoparticulates
HIROSHIJINNAI
1.Introduction721
2.TEMTonNanocompositeContaining ParticularFillers722
3.RecentDevelopmentinTEMT722 References725
61.DispersionControlofAl2O3 NanoparticlesinEthanol
TOSHIOKAKUI
1.EffectofMolecularWeightof PEIonNanoparticleSuspension Viscosity727
2.RelationshipBetweenMolecular SizeofPEIandSuspension Viscosity728
3.SurfaceInteractionBetweenAl2O3 NanoparticlesUsingNanocolloidal ProbeAFM728
4.ActionMechanismofPolymerDispersanton Al2O3 NanoparticleSuspension729 References730
62.Liquid CrystallineInorganic Nano-andFineParticles
KIYOSHIKANIEANDATSUSHIMURAMATSU
1.OrganicLiquidCrystalsandLyotropicLiquid CrystallineInorganicFineParticles731
2.DevelopmentofOrganic InorganicHybrid LiquidCrystals732
3.SummaryandProspect736 References737
63.FabricationTechniqueofOrganic NanocrystalsandTheirOpticalProperties andMaterialization
HITOSHIKASAI,HACHIRONAKANISHI,AND HIDETOSHIOIKAWA
1.TheOrganicCompoundsUsedfor Nanocrystallization739
2.FabricationTechniquesofOrganicNanocrystals739
3.Size-DependenceofOpticalPropertiesfor OrganicNanocrystals742
4.OrientationControlofDispersedOrganic NanocrystalsbyExternalField743 References743
64.InstantaneousNanofoamingMethodfor FabricationofClosed-PorositySilicaParticle KEN-ICHIKURUMADA
References749
65.CreationofBoronNitrideNanotubes andPossibilityforaSeriesofAdvanced NanocompositeMaterials
HIROAKIKUWAHARA
1.Introduction751 2.SynthesisMethodsofBoronNitrideNanotubes752 3.ReinforcementofResinsbytheAddition ofBoronNitrideNanotubes753 4.UseofBoronNitrideNanotubesFillersasan InsulatingHeatConductor756 5.CharacterizationofBoronNitride Nanotubes PolymerInterfacialInteractions757 6.Conclusion758 References758
66.FabricationofFunctionalCeramic DevicesProducedbyThree-Dimensional MoldingUsingMicrostereolithography
SHOJIMARUO
References763
67.MorphologyControlofParticlesand TheirPatterning
YOSHITAKEMASUDA
1.MorphologyControlofZnOParticlesand TheirPatterning765 2.PatterningofPtNanoparticlesandIn2O3 769 References774
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YujiNoguchi TheUniversityofTokyo
JunichiNoma SumiyoshiFactory,KurimotoLtd., Osaka,Japan
ToshiyukiNomura DepartmentofChemicalEngineering, OsakaPrefectureUniversity
TakashiOgi DepartmentofChemicalEngineering, HiroshimaUniversity
ChiakiOgino KobeUniversity,Kobe,Japan
SatoshiOhara InstituteofMultidisciplinaryResearchfor AdvancedMaterials,TohokuUniversity;OsakaUniversity, Osaka,Japan
AkiraOhtomo InstituteforMaterialsResearch,Tohoku University
HidetoshiOikawa InstituteofMultidisciplinaryResearch forAdvancedMaterials,TohokuUniversity
TomoichiroOkamoto NagaokaUniversityofTechnology
TatsuyaOkubo TheUniversityofTokyo
KikuoOkuyama GraduateSchoolofEngineering, HiroshimaUniversity
MinoruOsada NationalInstituteforMaterialsScience
YoshioOtani GraduateSchoolofNaturalScienceand Techonology,KanazawaUniversity
YasufumiOtsubo GraduateSchoolofEngineering,Chiba University
MasashiOtsuki CentralResearch,BridgestoneCorporation
FumioSaito InstituteofMultidisciplinaryResearchfor AdvancedMaterials(IMRAM),TohokuUniversity
ShujiSakaguchi NationalInstituteofAdvancedIndustrial ScienceandTechnology(AIST)
YoshioSakka NanoCeramicsCenter,NationalInstitutefor MaterialsScience,Tsukuba,Japan
ShujiSasabe PowderTechnologyResearchInstitute, HosokawaMicronCorporation
AikoSasai HosokawaMicronCorporation,Osaka,Japan
TakayoshiSasaki InternationalCenterforMaterials Nanoarchitectonics,NationalInstituteforMaterials Science
TakafumiSasaki InstituteofMultidisciplinaryResearchfor AdvancedMaterials,TohokuUniversity
NorifusaSatoh DepartmentofChemistry, KeioUniversity
TetsuyaSenda NationalMaritimeResearchInstitute
GimyeongSeong TohokuUniversity,Sendai,Japan
YuichiSetsuhara JoiningandWeldingResearchInstitute, OsakaUniversity
HaruhideShikano IbidenCo.,Ltd.
ManabuShimada GraduateSchoolofEngineering, HiroshimaUniversity
AkihikoSuda ToyotaCentralR&DLabs.,Inc.
KatsuakiSuganuma SenjuMetalIndustryCo.,Ltd.,Tokyo, Japan;OsakaUniversity,Osaka,Japan
HisaoSuzuki GraduateSchoolofScienceandTechnology, ShizuokaUniversity
MichitakaSuzuki DepartmentofMechanicalandSystem Engineering,UniversityofHyogo
TakahiroSuzuki KobeUniversity,Kobe,Japan
TakahiroTakada MurataManufacturingCo.,Ltd.
ChisatoTakahashi AichiGakuinUniversity,Nagoya,Japan
ChikaTakai CeramicsResearchLaboratory,Nagoya InstituteofTechnology
SeiichiTakami NagoyaUniversity,Nagoya,Japan
HirofumiTakase R&DDivision,TakironCo.,Ltd.
KenjiTakebayashi PowderTechnologyResearchInstitute, HosokawaMicronCorporation
HirofumiTakeuchi LaboratoryofPhamaceutical Engineering,GifuPharmaceuticalUniversity
JunichiTatami GraduateSchoolofEnvironment& InformationSciences,YokohamaNationalUniversity
MasahiroTatsumisago OsakaPrefectureUniversity, Osaka,Japan
KenjiToda GraduateSchoolofScienceandTechnology, NiigataUniversity
TakanariTogashi YamagataUniversity,Yamagata,Japan
TetsuroTojo ToyoTansoCo.,Ltd.
TakaakiTomai TohokuUniversity,Sendai,Japan
HiroyukiTsujimoto HosokawaMicronCorporation;Aichi GakuinUniversity,Nagoya,Japan
TakaoTsukada TohokuUniversity,Sendai,Japan
YusukeTsukada HosokawaMicronCorporation, Osaka,Japan
TetsuoUchikoshi NanoCeramicsCenter,NationalInstitute forMaterialsScience
KeizoUematsu NagaokaUniversityofTechnology
MinoruUeshima SenjuMetalIndustryCo.,Ltd., Tokyo,Japan
MitsuoUmetsu GraduateSchoolofEngineering, TohokuUniversity
ArimitsuUsuki ToyotaCentralR&DLabs.,Inc.
FumihiroWakai Materials&StructuresLaboratory,Tokyo InstituteofTechnology
XingWei Chang’anUniversity,ShaanXi,China
AkimasaYamaguchi EnergyEngineeringResearch Laboratory,CentralResearchInstituteofElectric PowerIndustry
YukioYamaguchi DepartmentofChemicalSystem Engineering,TheUniversityofTokyo
HiromitsuYamamoto UniversitySchoolofPharmacy,Aichi GakuinUniversity,Nagoya,Japan
KenjiYamamoto InternationalClinicalResearchCenter, InternationalMedicalCenterofJapan
KimihisaYamamoto DepartmentofChemistry, KeioUniversity
AtsushiYamamoto NationalInstituteofAdvanced IndustrialScienceandTechnology(AIST)
MasatomoYashima DepartmentofMaterialsScienceand Engineering,TokyoInstituteofTechnology
AkiraYoko TohokuUniversity,Sendai,Japan
AtsushiYokoi ToyohashiUniversityofTechnology, Toyohashi,Japan
ToyokazuYokoyama HosokawaMicronCorporation, Osaka,Japan
SusumuYonezawa FacultyofEngineering, UniversityofFukui
TetsuYonezawa HokkaidoUniversity,Sapporo,Japan
QiwuZhang InstituteofMultidisciplinaryResearchfor AdvancedMaterials,TohokuUniversity
