先进功能材料丛书·聚多糖纳米晶：化学与应用

作者: 黄进著 , 林宁著 , 彼得·张荣贵著

出版社: 化学工业出版社

出版时间: 2015-03

版次: 1

ISBN: 9787122229847

定价: 280.00

装帧: 精装

开本: 16开

纸张: 胶版纸

页数: 301页

字数: 656千字

正文语种: 简体中文

丛书: 先进功能材料丛书

分类: 工程技术

2人买过

　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》采用简明的语言、丰富的数据图表，阐明了来自天然生物质资源的聚多糖纳米晶的提取、结构、性质、化学修饰、材料制备等方面的理论知识和实践经验，总结了聚多糖纳米晶改性材料功能化、高性能化的研究思路和技术方案。不仅包含作者在过去十年中以保护环境和降低石油消耗为目标，围绕可再生、可生物降解的聚多糖纳米晶发展成为高性能材料及功能材料的研究工作的凝练，同时涵盖了国内外同行的优秀研究成果。
　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》主要包括纤维素纳米晶、甲壳素纳米晶及淀粉纳米晶的制备、化学和物理改性、纳米复合材料和功能材料构建的相关理论和技术等内容，并且对聚多糖纳米晶的理论研究体系建立、应用拓展及发展方向等进行了展望。
　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》可供生物质化学与化工、高分子科学、环境科学、材料科学、农业化学、纳米科学与技术等相关专业的研究生学习使用，也可作为相关科研工作和工程技术人员的参考书。　　黄进，博士、武汉理工大学教授、博士生导师，IUPAC、中国化学会、中国微米纳米技术学会纳米科学技术分会、中国毒理学会纳米毒理学专业委员会、中国生物材料委员会会员，先后受聘为中国科学院高级访问学者、法国Grenoble国立理工学院访问学者、华东师范大学兼职教授、武汉纺织大学客座教授，入选“教育部新世纪优秀人才支持计划”、“江苏省高层次创新创业人才引进计划”和“武汉市青年科技晨光计划”。 ·ListofContributorsXIII
ForewordXV
PrefaceXVII
1PolysaccharideNanocrystals：CurrentStatusandProspectsinMateri
Science
JinHuang，PeterR.Chang，andAlainDufresne
1.1IntroductiontoPolysaccharideNanocrystals
1.2CurrentApplicationofPolysaccharideNanocrystalsinMaterial
Science
1.3ProspectsforPolysaccharideNanocrystal-BasedMaterials
ListofAbbreviations
References

2StructureandPropertiesofPolysaccharideNanocrystals
FeiHu，ShiyuFu，JinHuang，DebbieP.Anderson，andPeterR.Chang
2.1Introduction
2.2CelluloseNanocrystals
2.2.1PreparationofCelluloseNanocrystals
2.2.1.1AcidHydrolysisExtractionofCelluloseNanocrystals
2.2.1.2EectsofAcidType
2.2.1.3EectsofPretreatment
2.2.2StructureandPropertiesofCelluloseNanocrystals
2.2.2.1StructureandRigidityofCelluloseNanocrystals
2.2.2.2PhysicalPropertiesofCelluloseNanocrystals
2.3ChitinNanocrystals
2.3.1PreparationofChitinNanocrystals
2.3.1.1ExtractionofChitinNanocrystalsbyAcidHydrolysis
2.3.1.2ExtractionofChitinNanocrystalsbyTEMPOOxidation
2.3.2StructureandPropertiesofChitinNanocrystals
2.3.2.1StructureandRigidityofChitinNanocrystals
2.3.2.2PropertiesofChitinNanocrystalSuspensions
2.4StarchNanocrystals
2.4.1PreparationofStarchNanocrystals
2.4.1.1ExtractionofStarchNanocrystalsbyAcidHydrolysis
2.4.1.2EectofUltrasonicTreatment
2.4.1.3EectofPretreatment
2.4.2StructureandPropertiesofStarchNanocrystals
2.4.2.1StructureofStarchNanocrystals
2.4.2.2PropertiesofStarchNanocrystalSuspensions
2.5ConclusionandProspects
ListofAbbreviations
References

3SurfaceModicationofPolysaccharideNanocrystals
NingLinandAlainDufresne
3.1Introduction
3.2SurfaceChemistryofPolysaccharideNanocrystals
3.2.1SurfaceHydroxylGroups
3.2.2SurfaceGroupsOriginatingfromVariousExtractionMethods
3.3ApproachesandStrategiesforSurfaceModication
3.3.1PurposeandChallengeofSurfaceModication
3.3.2ComparisonofDierentApproachesandStrategiesofSurfaceModication
3.4AdsorptionofSurfactant
3.4.1AnionicSurfactant
3.4.2CationicSurfactant
3.4.3NonionicSurfactant
3.5HydrophobicGroupsResultingfromChemicalDerivatization
3.5.1AcetylandEsterGroupswithAcetylationandEsterication
3.5.2CarboxylGroupsResultingfromTEMPO-MediatedOxidation
3.5.3DerivatizationwithIsocyanateCarboamination
3.5.4SilylGroupsResultingfromSilylation
3.5.5CationicGroupsResultingfromCationization
3.6PolymericChainsfromPhysicalAbsorptionorChemicalGrafting
3.6.1HydrophilicPolymer
3.6.2Polyester
3.6.3Polyolen
3.6.4BlockCopolymer
3.6.5PolyurethaneandWaterbornePolyurethane
3.6.6OtherHydrophobicPolymer
3.7AdvancedFunctionalGroupsandModication
3.7.1FluorescentandDyeMolecules
3.7.2AminoAcidandDNA
3.7.3Self-Cross-linkingofPolysaccharideNanocrystals
3.7.4PhotobactericidalPorphyrinMolecule
3.7.5ImidazoliumMolecule
3.7.6CyclodextrinMoleculeandPluronicPolymer
3.8ConcludingRemarks
ListofAbbreviations
References

4PreparationofPolysaccharideNanocrystal-BasedNanocomposites
Hou-YongYu，JinHuang，YouliChen，andPeterR.Chang
4.1Introduction
4.2Casting/EvaporationProcessing
4.2.1SolutionCasting/EvaporationProcessing
4.2.2SolutionCastinginAqueousMedium
4.2.2.1DispersionStabilityofPolysaccharideNanocrystalsinAqueous
Medium
4.2.2.2BlendingwithHydrophilicPolymers
4.2.2.3BlendingwithHydrophobicPolymers
4.2.3SolutionCastinginOrganicMedium
4.2.3.1DispersionStabilityofPolysaccharideNanocrystalsinOrganicMedium
4.2.3.2BlendingwithPolymersinOrganicSolvent
4.3hermoprocessingMethods
4.3.1hermoplasticMaterialsModiedwithPolysaccharide
Nanocrystals
4.3.2InuenceofSurfaceModicationofPolysaccharideNanocrystalson
Nanocompositehermoprocessing
4.4PreparationofNanobersbyElectrospinningTechnology
4.4.1ElectrospinningTechnology
4.4.1.1Concepts
4.4.1.2FormationProcessofNanobers
4.4.1.3BasicElectrospinningParametersandDevices
4.4.1.4NewlyEmergingElectrospinningTechniques
4.4.2NanocompositeNanobersFilledwithPolysaccharide
Nanocrystals
4.4.2.1ElectrospunNanobersinAqueousMedium
4.4.2.2ElectrospunNanobersinNon-aqueousMedium
4.5Sol-GelMethod
4.5.1ConceptsofSol-GelProcess
4.5.2PolysaccharideNanocrystal-Basedor-DerivedNanocomposites
PreparedbySol-GelMethod
4.5.3ChiralNanocompositesUsingCelluloseNanocrystalTemplate
4.5.3.1InorganicChiralMaterialsBasedonCelluloseNanocrystal
Template
4.5.3.2ChiralPorousMaterials
4.5.3.3ChiralPorousCarbonMaterials
4.5.3.4MetalNanoparticle-DecoratedChiralNematicMaterials
4.6Self-AssemblyMethod
4.6.1OverviewofSelf-AssemblyMethod
4.6.2Self-AssemblyMethodTowardPolysaccharide
Nanocrystal-ModiedMaterials
4.6.2.1Self-AssemblyofPolysaccharideNanocrystalsinAqueous
Medium
4.6.2.2Self-AssemblyofPolysaccharideNanocrystalsinOrganic
Medium
4.6.2.3Self-AssemblyofPolysaccharideNanocrystalsinSolidFilm
4.6.3PolysaccharideNanocrystal-ModiedMaterialsPreparedbyLBL
Method
4.7OtherMethodsandProspects
ListofAbbreviations
References

5PolysaccharideNanocrystal-ReinforcedNanocomposites
HaniehKargarzadehandIshakAhmad
5.1Introduction
5.2Rubber-BasedNanocomposites
5.3Polyolen-BasedNanocomposites
5.4PolyurethaneandWaterbornePolyurethane-Based
Nanocomposites
5.5Polyester-BasedNanocomposites
5.6Starch-BasedNanocomposites
5.7Protein-BasedNanocomposites
5.8ConcludingRemarks
ListofAbbreviations
References

6PolysaccharideNanocrystals-BasedMaterialsforAdvanced
Applications
NingLin，JinHuang，andAlainDufresne
6.1Introduction
6.2SurfaceCharacteristicsInducedFunctionalNanomaterials
6.2.1ActiveGroups
6.2.1.1ImportingFunctionalGroupsorMolecules
6.2.1.2TemplateforSynthesizingInorganicNanoparticles
6.2.2SurfaceChargesandHydrophilicity
6.2.2.1EmulsionNanostabilizer
6.2.2.2High-EciencyAdsorption
6.2.2.3PermselectiveMembrane
6.2.3NanoscaleandHighSurfaceArea
6.2.3.1SurfaceCellCultivation
6.2.3.2WaterDecontamination
6.3Nano-ReinforcingEectsinFunctionalNanomaterials
6.3.1SoftMatter
6.3.1.1Hydrogel
6.3.1.2Sponge，Foam，Aerogel，andTissue-EngineeringNanosca?old
6.3.2SpecialMechanicalMaterials
6.3.3Self-HealableandShape-MemoryMaterials
6.3.4PolymericElectrolytesandBattery
6.3.5Semi-conductingMaterial
6.4OpticalMaterialsDerivedfromLiquidCrystallineProperty
6.5SpecialFilmsandSystemsAscribedtoBarrierProperty
6.5.1DrugDelivery-BarrierforDrugMolecules
6.5.2BarrierNanocomposites-BarrierforWaterandOxygen
6.6OtherFunctionalApplications
6.7ConcludingRemarks
ListofAbbreviations
References

7CharacterizationofPolysaccharideNanocrystal-BasedMaterials
AlainDufresneandNingLin
7.1Introduction
7.2MechanicalPropertiesofPolysaccharideNanocrystals
7.2.1IntrinsicMechanicalPropertiesofPolysaccharide
Nanocrystals
7.2.2MechanicalPropertiesofPolysaccharideNanocrystalFilms
7.3DispersionofPolysaccharideNanocrystals
7.3.1ObservationofPolysaccharideNanocrystalsinMatrix
7.3.2hree-DimensionalNetworkofPolysaccharideNanocrystals
7.4MechanicalPropertiesofPolysaccharideNanocrystal-Based
Materials
7.4.1InuenceoftheMorphologyandDimensionsofthe
Nanocrystals
7.4.2InuenceoftheProcessingMethod
7.5PolysaccharideNanocrystal/MatrixInterfacialInteractions
7.6hermalPropertiesofPolysaccharideNanocrystal-Based
Materials
7.6.1hermalPropertiesofPolysaccharideNanocrystals
7.6.2GlassTransitionofPolysaccharideNanocrystal-Based
Nanocomposites
7.6.3Melting/CrystallizationTemperatureofPolysaccharide
Nanocrystal-BasedNanocomposites
7.6.4hermalStabilityofPolysaccharideNanocrystal-Based
Nanocomposites
7.7BarrierPropertiesofPolysaccharideNanocrystal-Based
Materials
7.7.1BarrierPropertiesofPolysaccharideNanocrystalFilms
7.7.2SwellingandSorptionPropertiesofPolysaccharide
Nanocrystal-BasedNanocomposites
7.7.3WaterVaporTransferandPermeabilityofPolysaccharide
Nanocrystal-BasedNanocomposites
7.7.4GasPermeabilityofPolysaccharideNanocrystal-Based
Nanocomposites
7.8ConcludingRemarks
ListofAbbreviations
References
Index
内容简介:
　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》采用简明的语言、丰富的数据图表，阐明了来自天然生物质资源的聚多糖纳米晶的提取、结构、性质、化学修饰、材料制备等方面的理论知识和实践经验，总结了聚多糖纳米晶改性材料功能化、高性能化的研究思路和技术方案。不仅包含作者在过去十年中以保护环境和降低石油消耗为目标，围绕可再生、可生物降解的聚多糖纳米晶发展成为高性能材料及功能材料的研究工作的凝练，同时涵盖了国内外同行的优秀研究成果。
　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》主要包括纤维素纳米晶、甲壳素纳米晶及淀粉纳米晶的制备、化学和物理改性、纳米复合材料和功能材料构建的相关理论和技术等内容，并且对聚多糖纳米晶的理论研究体系建立、应用拓展及发展方向等进行了展望。
　　《先进功能材料丛书·聚多糖纳米晶：化学与应用》可供生物质化学与化工、高分子科学、环境科学、材料科学、农业化学、纳米科学与技术等相关专业的研究生学习使用，也可作为相关科研工作和工程技术人员的参考书。
作者简介:
　　黄进，博士、武汉理工大学教授、博士生导师，IUPAC、中国化学会、中国微米纳米技术学会纳米科学技术分会、中国毒理学会纳米毒理学专业委员会、中国生物材料委员会会员，先后受聘为中国科学院高级访问学者、法国Grenoble国立理工学院访问学者、华东师范大学兼职教授、武汉纺织大学客座教授，入选“教育部新世纪优秀人才支持计划”、“江苏省高层次创新创业人才引进计划”和“武汉市青年科技晨光计划”。
目录:
·ListofContributorsXIII
ForewordXV
PrefaceXVII
1PolysaccharideNanocrystals：CurrentStatusandProspectsinMateri
Science
JinHuang，PeterR.Chang，andAlainDufresne
1.1IntroductiontoPolysaccharideNanocrystals
1.2CurrentApplicationofPolysaccharideNanocrystalsinMaterial
Science
1.3ProspectsforPolysaccharideNanocrystal-BasedMaterials
ListofAbbreviations
References

2StructureandPropertiesofPolysaccharideNanocrystals
FeiHu，ShiyuFu，JinHuang，DebbieP.Anderson，andPeterR.Chang
2.1Introduction
2.2CelluloseNanocrystals
2.2.1PreparationofCelluloseNanocrystals
2.2.1.1AcidHydrolysisExtractionofCelluloseNanocrystals
2.2.1.2EectsofAcidType
2.2.1.3EectsofPretreatment
2.2.2StructureandPropertiesofCelluloseNanocrystals
2.2.2.1StructureandRigidityofCelluloseNanocrystals
2.2.2.2PhysicalPropertiesofCelluloseNanocrystals
2.3ChitinNanocrystals
2.3.1PreparationofChitinNanocrystals
2.3.1.1ExtractionofChitinNanocrystalsbyAcidHydrolysis
2.3.1.2ExtractionofChitinNanocrystalsbyTEMPOOxidation
2.3.2StructureandPropertiesofChitinNanocrystals
2.3.2.1StructureandRigidityofChitinNanocrystals
2.3.2.2PropertiesofChitinNanocrystalSuspensions
2.4StarchNanocrystals
2.4.1PreparationofStarchNanocrystals
2.4.1.1ExtractionofStarchNanocrystalsbyAcidHydrolysis
2.4.1.2EectofUltrasonicTreatment
2.4.1.3EectofPretreatment
2.4.2StructureandPropertiesofStarchNanocrystals
2.4.2.1StructureofStarchNanocrystals
2.4.2.2PropertiesofStarchNanocrystalSuspensions
2.5ConclusionandProspects
ListofAbbreviations
References

3SurfaceModicationofPolysaccharideNanocrystals
NingLinandAlainDufresne
3.1Introduction
3.2SurfaceChemistryofPolysaccharideNanocrystals
3.2.1SurfaceHydroxylGroups
3.2.2SurfaceGroupsOriginatingfromVariousExtractionMethods
3.3ApproachesandStrategiesforSurfaceModication
3.3.1PurposeandChallengeofSurfaceModication
3.3.2ComparisonofDierentApproachesandStrategiesofSurfaceModication
3.4AdsorptionofSurfactant
3.4.1AnionicSurfactant
3.4.2CationicSurfactant
3.4.3NonionicSurfactant
3.5HydrophobicGroupsResultingfromChemicalDerivatization
3.5.1AcetylandEsterGroupswithAcetylationandEsterication
3.5.2CarboxylGroupsResultingfromTEMPO-MediatedOxidation
3.5.3DerivatizationwithIsocyanateCarboamination
3.5.4SilylGroupsResultingfromSilylation
3.5.5CationicGroupsResultingfromCationization
3.6PolymericChainsfromPhysicalAbsorptionorChemicalGrafting
3.6.1HydrophilicPolymer
3.6.2Polyester
3.6.3Polyolen
3.6.4BlockCopolymer
3.6.5PolyurethaneandWaterbornePolyurethane
3.6.6OtherHydrophobicPolymer
3.7AdvancedFunctionalGroupsandModication
3.7.1FluorescentandDyeMolecules
3.7.2AminoAcidandDNA
3.7.3Self-Cross-linkingofPolysaccharideNanocrystals
3.7.4PhotobactericidalPorphyrinMolecule
3.7.5ImidazoliumMolecule
3.7.6CyclodextrinMoleculeandPluronicPolymer
3.8ConcludingRemarks
ListofAbbreviations
References

4PreparationofPolysaccharideNanocrystal-BasedNanocomposites
Hou-YongYu，JinHuang，YouliChen，andPeterR.Chang
4.1Introduction
4.2Casting/EvaporationProcessing
4.2.1SolutionCasting/EvaporationProcessing
4.2.2SolutionCastinginAqueousMedium
4.2.2.1DispersionStabilityofPolysaccharideNanocrystalsinAqueous
Medium
4.2.2.2BlendingwithHydrophilicPolymers
4.2.2.3BlendingwithHydrophobicPolymers
4.2.3SolutionCastinginOrganicMedium
4.2.3.1DispersionStabilityofPolysaccharideNanocrystalsinOrganicMedium
4.2.3.2BlendingwithPolymersinOrganicSolvent
4.3hermoprocessingMethods
4.3.1hermoplasticMaterialsModiedwithPolysaccharide
Nanocrystals
4.3.2InuenceofSurfaceModicationofPolysaccharideNanocrystalson
Nanocompositehermoprocessing
4.4PreparationofNanobersbyElectrospinningTechnology
4.4.1ElectrospinningTechnology
4.4.1.1Concepts
4.4.1.2FormationProcessofNanobers
4.4.1.3BasicElectrospinningParametersandDevices
4.4.1.4NewlyEmergingElectrospinningTechniques
4.4.2NanocompositeNanobersFilledwithPolysaccharide
Nanocrystals
4.4.2.1ElectrospunNanobersinAqueousMedium
4.4.2.2ElectrospunNanobersinNon-aqueousMedium
4.5Sol-GelMethod
4.5.1ConceptsofSol-GelProcess
4.5.2PolysaccharideNanocrystal-Basedor-DerivedNanocomposites
PreparedbySol-GelMethod
4.5.3ChiralNanocompositesUsingCelluloseNanocrystalTemplate
4.5.3.1InorganicChiralMaterialsBasedonCelluloseNanocrystal
Template
4.5.3.2ChiralPorousMaterials
4.5.3.3ChiralPorousCarbonMaterials
4.5.3.4MetalNanoparticle-DecoratedChiralNematicMaterials
4.6Self-AssemblyMethod
4.6.1OverviewofSelf-AssemblyMethod
4.6.2Self-AssemblyMethodTowardPolysaccharide
Nanocrystal-ModiedMaterials
4.6.2.1Self-AssemblyofPolysaccharideNanocrystalsinAqueous
Medium
4.6.2.2Self-AssemblyofPolysaccharideNanocrystalsinOrganic
Medium
4.6.2.3Self-AssemblyofPolysaccharideNanocrystalsinSolidFilm
4.6.3PolysaccharideNanocrystal-ModiedMaterialsPreparedbyLBL
Method
4.7OtherMethodsandProspects
ListofAbbreviations
References

5PolysaccharideNanocrystal-ReinforcedNanocomposites
HaniehKargarzadehandIshakAhmad
5.1Introduction
5.2Rubber-BasedNanocomposites
5.3Polyolen-BasedNanocomposites
5.4PolyurethaneandWaterbornePolyurethane-Based
Nanocomposites
5.5Polyester-BasedNanocomposites
5.6Starch-BasedNanocomposites
5.7Protein-BasedNanocomposites
5.8ConcludingRemarks
ListofAbbreviations
References

6PolysaccharideNanocrystals-BasedMaterialsforAdvanced
Applications
NingLin，JinHuang，andAlainDufresne
6.1Introduction
6.2SurfaceCharacteristicsInducedFunctionalNanomaterials
6.2.1ActiveGroups
6.2.1.1ImportingFunctionalGroupsorMolecules
6.2.1.2TemplateforSynthesizingInorganicNanoparticles
6.2.2SurfaceChargesandHydrophilicity
6.2.2.1EmulsionNanostabilizer
6.2.2.2High-EciencyAdsorption
6.2.2.3PermselectiveMembrane
6.2.3NanoscaleandHighSurfaceArea
6.2.3.1SurfaceCellCultivation
6.2.3.2WaterDecontamination
6.3Nano-ReinforcingEectsinFunctionalNanomaterials
6.3.1SoftMatter
6.3.1.1Hydrogel
6.3.1.2Sponge，Foam，Aerogel，andTissue-EngineeringNanosca?old
6.3.2SpecialMechanicalMaterials
6.3.3Self-HealableandShape-MemoryMaterials
6.3.4PolymericElectrolytesandBattery
6.3.5Semi-conductingMaterial
6.4OpticalMaterialsDerivedfromLiquidCrystallineProperty
6.5SpecialFilmsandSystemsAscribedtoBarrierProperty
6.5.1DrugDelivery-BarrierforDrugMolecules
6.5.2BarrierNanocomposites-BarrierforWaterandOxygen
6.6OtherFunctionalApplications
6.7ConcludingRemarks
ListofAbbreviations
References

7CharacterizationofPolysaccharideNanocrystal-BasedMaterials
AlainDufresneandNingLin
7.1Introduction
7.2MechanicalPropertiesofPolysaccharideNanocrystals
7.2.1IntrinsicMechanicalPropertiesofPolysaccharide
Nanocrystals
7.2.2MechanicalPropertiesofPolysaccharideNanocrystalFilms
7.3DispersionofPolysaccharideNanocrystals
7.3.1ObservationofPolysaccharideNanocrystalsinMatrix
7.3.2hree-DimensionalNetworkofPolysaccharideNanocrystals
7.4MechanicalPropertiesofPolysaccharideNanocrystal-Based
Materials
7.4.1InuenceoftheMorphologyandDimensionsofthe
Nanocrystals
7.4.2InuenceoftheProcessingMethod
7.5PolysaccharideNanocrystal/MatrixInterfacialInteractions
7.6hermalPropertiesofPolysaccharideNanocrystal-Based
Materials
7.6.1hermalPropertiesofPolysaccharideNanocrystals
7.6.2GlassTransitionofPolysaccharideNanocrystal-Based
Nanocomposites
7.6.3Melting/CrystallizationTemperatureofPolysaccharide
Nanocrystal-BasedNanocomposites
7.6.4hermalStabilityofPolysaccharideNanocrystal-Based
Nanocomposites
7.7BarrierPropertiesofPolysaccharideNanocrystal-Based
Materials
7.7.1BarrierPropertiesofPolysaccharideNanocrystalFilms
7.7.2SwellingandSorptionPropertiesofPolysaccharide
Nanocrystal-BasedNanocomposites
7.7.3WaterVaporTransferandPermeabilityofPolysaccharide
Nanocrystal-BasedNanocomposites
7.7.4GasPermeabilityofPolysaccharideNanocrystal-Based
Nanocomposites
7.8ConcludingRemarks
ListofAbbreviations
References
Index

查看详情

先进功能材料丛书·聚多糖纳米晶：化学与应用

内容简介:

作者简介:

目录: