贝壳珍珠层及其仿生材料的研究进展

Vol．32No．10201110CHEMICALJOURNALOFCHINESEUNIVERSITIES2231～223911121．1001912．100190-、“-”．、、．．-O613TB383A0251-0790201110-2231-092011-04-06．“”2010CB934700、51003004YWF-10-01-B16．．E-mailjianglei@iccas．ac．cn、．E-mailwjt@buaa．edu．cn、、1～4．、、-、、5～9．11011-．、12～14．、15～18．95%5%300019、“-”．、、20．1101121～231、“-”．5～8μm、0.4μm．．、．Fig．1Multiscalestructuresofnacre1123AInsideviewoftheshellBcrosssectionofaredabaloneshellCschematicofthebrickwalllikemicrostructureDopticalmicro-graphshowingthetilingofthetabletsESEMofafracturesurfaceFTEMshowingtabletwavinessGHAFMofthearagonitesurface．101123～30．“-”．．Smith31．．3233、342035．36．．2．．、31516．1037～45、．Bonderer46、．Kotov47．2．1Bottom-upself-assemblyapproach．48．、、、．2090Heuer49．Sellinger50512322Vol．32-．---．Zhang52ITO53PolyTPGDA/ITO．．-54．、．Bonderer4655．-Al2O3/2．15%315MPa10GPa17%．Yu56LDHsLDH-．Fig．2Bottom-upcolloidalassemblyofmultilayeredhybridfilms46、．Andreas57583250MPa45GPa．Fig．3Multilevelself-assemblytoformanacre-mimeticbrickandmortarstructurebycore/shellhard/softbuildingblocksconsistingofhardinorganiccoresandsoftpolymercoatings57Yu59-MMTMMT/．MMTMMT-MMT．“-”、．3322No．1060．、．2．2Layer-by-layermethodology61～66467．68、69、70、71、72737475～77．．Fig．4SchemeoftheLBLfilm-deposition67ASteps1and3representtheadsorptionofpolyanionandpolycationsteps2and4arewashingstepsBTwoadsorptionroutesdepictingLBLdepositionforpolymersandpolymerswithnanoparticles．Tang78PDDAPCP/Cn5μm．．Kotov79～85．Kotov80PVA．1nm100～1000nm．Burghard86TiO2PE5．TiO2/PE10∶1、．2010Zlotnikov87ZrO2ZrO274nm14nm．Fig．5TiO2/PEcompositefilmandthepolyelectrolytelayershownintheenlarged86Kakisawa88-SiO2/PAE．SiO2PAE．--．．．4322Vol．322．3Directionalfreezing206089～95．96．、．Deville97．61μm．．97～99．Fig．6Processingprinciplesforicetemplation97Ritchie100～102Al2O3MMA“-”7．300．Fig．7Porousscaffoldsofpracticaldimensionsobtainedbyfreeze-castingAandthelamellarstructuresfollowedbypolymerinfiltrationB101102．2．4Electrophoreticdeposition103104．Wang105．0.95GPa16.9GPa．Wang106“-”8．2．．PMDA44'-ODAPAAODAMMTPAAPAA/MMT107．PAA155%40%．5322No．10Fig．8Schemeofthehydrothermal-electrophoreticassemblytoformnanolaminatedstructure106Jiang108～111AlOH3．AlOH3．5%4．．、、．、、pH、、．．2．5Kakisawa112Al2O3Al2O3．Kakisawa11380%．、．2010Bonderer114115．、．Lee116/．-．．3．．．．1MasonN．D．BrookO．S．AdamP．S．．IntegrativeandComparativeBiologyJ200949115—202MarcB．．MaterialTodayJ20101324—303ZhangZ．Q．ZhangY．W．GaoH．J．．Proc．R．Soc．BJ20112781705519—5254LIUQuan-YongJIANGLei．Chem．J．ChineseUniversitiesJ20103161065—10715JIANGLeiFENGLin．BioinspiredIntelligentNanoStructureInterfacialMaterialsMBei-jingChemicalIndustryPress20076GeorgeM．．ScienceJ20053101144—11477WANGNüZHAOYongJIANGLei．Chem．J．ChineseUniversitiesJ20113236322Vol．32421—4288LinL．LiuM．J．ChenL．ChenP．P．MaJ．HanD．JiangL．．AdvancedMaterialsJ201022434826—48309ZhengY．M．BaiH．HuangZ．B．TianX．L．NieF．Q．ZhaoY．ZhaiJ．JiangL．．NatureJ20104637281640—64310JIAXian．NaturalBiologicalMaterialsandBionicEngineeringMaterialsMBeijingChemicalIndustryPress200711GiselaM．L．JoaoF．M．．Phil．Trans．R．Soc．AJ20093671587—160512MarkusA．PeterF．．Macromol．Chem．Phys．J2010211166—17013LiuK．S．YaoX．JiangL．．Chem．Soc．Rev．J20103983240—325514DUChen-GuangXIAFanWANGShu-TaoWANGJing-XiaSONGYan-LinJIANGLei．Chem．J．ChineseUniversitiesJ2010313421—43115LIUKe-SongJIANGLei．ChineseScienceBulletinJ200954182667—268116CAIGuo-BinYUShu-Hong．ChineseBulletinofLifeSciencesJ2008203331—33617LINDong-YangZHAOYu-TaoSHIQiu-Ping．ChineseMaterialsReviewJ200519628—3118HUQiao-LingLIXiao-DongSHENJia-Cong．ChineseJournalofMaterialsResearchJ2003174337—34319WegstU．G．K．AshbyM．F．．Philos．Mag．J200484212167—218120ChristineO．MaryC．B．．ScienceJ200831958661053—105421MenigR．MeyersM．H．MeyersM．A．VecchioK．S．．ActaMater．J2000482383—239822LiX．D．ChangW．C．ChaoY．J．WangR．ChangM．．NanoLett．J20044613—61723HoracioD．E．JeeE．R．FrancoisB．MarkusJ．B．．ProgressinMaterialsScienceJ2009541059—110024SabineB．SiangF．A．GeroldA．S．．BiomaterialsJ2010316378—638525JiB．H．GaoH．J．．Annu．Rev．Mater．Res．J20104077—10026BharatB．．Phil．Trans．R．Soc．AJ20093671445—148627DunlopJ．W．C．FratziP．．Annu．Rev．Mater．Res．J2010401—2428PhilippeS．MarcelB．．TribologyInternationalJ2006391485—149629LiX．D．．NanocompositeMaterialsJ2007371—7430WilliamN．S．．SpringerHandbookofExperimentalSolidMechanicsMBaltimoreSpringerUS2008891—92831SmithB．L．SchaefferT．E．VianiM．ThompsonJ．B．FrederickN．A．KindtJ．BelcherA．StuckyG．D．MorseD．E．HansmaP．K．．NatureJ19993996738761—76332EvansA．G．SuoZ．WangR．Z．AksayI．A．HeM．Y．HutchinsonJ．W．．J．Mater．Res．J20011692475—278433KattiK．S．KattiD．R．BhosleA．PradhanS．．J．Mater．Res．J2005201097—110034SongF．SohA．K．BaiY．L．．BiomaterialsJ2003243623—363135LiX．D．XuZ．H．WangR．Z．．NanoLett．J200662301—230436BarthelatF．．Phil．Trans．R．Soc．AJ20073652907—291937ArigaK．HuX．L．MandalS．．NanoscaleJ201022198—21438GiselaM．L．ManoJ．F．．CompositesScienceandTechnologyJ2010701777—178839LiX．D．ZouL．H．NiH．AnthonyP．R．WangC．A．HuangY．．MaterialsScienceandEngineeringCJ2008281501—150840BernaI．R．SarahK．HenningM．BehrensP．BerendD．OstermeierS．ChristofH．．ArchOrthop．Trauma．Surg．J2011131191—19641JidduB．AsaroR．J．HawleyM．．JournalofStructuralBiologyJ2010170484—50042HouX．JiangL．．ACSNanoJ200913113339—334243DenkenaB．Koe