加快京津冀制局(C)預聚物溶液的UV?vis吸附光譜�����。3D打印機所提供的控制水平已使得在生產(chǎn)與生理相關(guān)的仿生組織和器官替代品方面取得許多顯著進展,氫網(wǎng)如藥物測試���,氫網(wǎng)闡明生物機制��,疾病模型��,翻譯醫(yī)學和外科植入物等����。絡(luò)布作者簡介ShaochenChen,PhDProfessorandChairofNanoEngineering?DepartmentUniversityofCalifornia,SanDiegoResearch:?Dr.Chenisapioneerin3Dprintingandbioprintingwithover200peer-reviewedpublications.Hefirstinitiatedascanningless3Dprintingtechniquetermedmicro-stereolithography(μSL)forprojectionprintingofbiomaterialsin2006.?BuildinguponhisμSLtechnique,heinventedadynamicopticalstereolithographymethod(DOPsL)in2012(AdvancedMaterials,2012).Comparedtotraditionalnozzle-based3Dprinting,DOPsLenables3Dprintingthatis3,000timesfasterinprintingspeedand100timesfinerinprintingresolution(NatureCommunications,2014).Hehascontinuedtoadvancethisfieldbydevelopingamicroscalecontinuousopticalbioprinting(μCOB)methodfortherapid3Dbioprintingoffunctionaltissuesmodelsinmereseconds.Usinghumaninducedpluripotentstemcells,hesuccessfullybioprintedfunctionallivertissuesthatenablediseasemodelinganddrugscreening(PNAS,2016).Furthermore,byintegratingneuronstemcellswithina3Dprintedbiomimeticscaffold,histeamhassucceededintherepairofaseverelydamagedspinalcordinratstoresultinsignificantfunctionalrecovery(NatureMedicine,2019).Hisground-breakingworkhasbeenreportedbyTheWashingtonPost,TheWallStreetJournal,Forbes,andYahooNews.Hispioneeringworkinmicroandnanoscale3Dprintingandbioprintingestablishedthefoundationfortheemergingfieldofbiofabricationfortissueengineeringandregenerativemedicineapplications.Hefoundedastartupcompany,Allegro3Dtocommercializehisbioprintingtechniques.Itisprovidingtransformativesolutionstoorgan/tissuerepairandregeneration,acceleratingdrugtoxicityandefficacytesting,andadvancinghumandiseasesmodeling.Dr.Chenhasreceivednumerousawards,includingtheNSFCAREERaward,?ONRYoungInvestigatoraward,andNIHEdwardNagyNewInvestigatorAward.In2017,hereceivedtheMiltonC.ShawManufacturingResearchMedalfromASMEforhisseminalworkin3Dprinting,bioprinting,andnanomanufacturing.ThisisthehighestawardgivenbyASMEtorecognizeoriginalmanufacturingresearchinthefield.Dr.ChenisaFellowofmajorsocieties,includingtheAmericanAssociationfortheAdvancementofScience(AAAS),AmericanInstituteforMedicalandBiologicalEngineering?(AIMBE),AmericanSocietyofMechanicalEngineers(ASME),InternationalSocietyforOpticsandPhotonics?(SPIE),andInternationalSocietyforNanomanufacturing(ISNM).RepresentativePublications?(outof203peer-reviewedpapers)LuandS.C.Chen*,MicroandNano-fabricationofBiodegradablePolymersforDrugDelivery,AdvancedDrugDeliveryReviews,Vol.56,pp.1621-1633,2004.Lu,G.Mapili,G.Suhali,S.C.Chen*,K.Roy*,ADigitalMicro-mirrorDevice-basedSystemfortheMicrofabricationofComplex,SpatiallyPatternedTissueEngineeringScaffolds,JournalofBiomedicalMaterialsResearchA,Vol.77A(2),pp396-405,2006.P.?Zhang,X.Qu,?P.Soman,?K.C.Hribar,?J.W.Lee,?S.C.Chen*,andS.He,RapidFabricationofComplex3DExtracellularMicroenvironments?byDynamicOpticalProjectionStereolithography,AdvancedMaterials,Vol.24(no.31),pp.4266-4270,2012.Zhu,J.Li,Y.Leong,?I.Rozen,X.Qu,R.Dong,Z.Wu,W.Gao,P.H.Chung,J.Wang*,?andS.C.Chen*,3DPrintedArtificialMicro-Fish,AdvancedMaterials,27,pp.4411–4417,2015.Ma,X.Qu,W.Zhu,Y.-S.Li,S.Yuan,H.Zhang,J.Liu,P.Wang,C.S.Lai,F.Zanella,G.-S.Feng,F.Sheikh,S.Chien*,S.C.Chen*,DeterministicallyPatternedBiomimeticHumaniPSC-derivedHepaticModelviaRapid3DBioprinting,ProceedingsoftheNationalAcademyofSciences(PNAS),Vol.113(no.8),pp.2206-2211,2016.?????HighlightedinNatureReviewsGastroenterologyHepatology,Feb24,2016.Zhu,X.Qu,J.Zhu,X.Ma,S.Patel,J.Liu,P.Wang,C.S.Lai,M.Gou,Y.Xu,K.Zhang,S.C.Chen*,Direct3Dbioprintingofprevascularizedtissueconstructswithcomplexmicroarchitecture,Biomaterials,Vol.124,pp.106-115,2017.Zhu+,K.R.Tringale+,S.A.Woller,S.You,S.Johnson,H.Shen,J.Schimelman,M.Whitney,J.Steinauer,W.Xu,T.L.Yaksh,Q.T.Nguyen*,S.C.Chen*,RapidContinuous3DPrintingofCustomizablePeripheralNerveGuidanceConduits,MaterialsToday,Vol.21(9),pp.951-959,2018.Ma,C.Yu,P.Wang,W.Xu,X.Wan,C.S.E.Lai,J.Liu,A.Koroleva-Maharajh,S.C.Chen*,Rapid3Dbioprintingofdecellularizedextracellularmatrixwithregionallyvariedmechanicalpropertiesandbiomimeticmicroarchitecture,Biomaterials,Vol.185,pp.310-321,2018,DOI:10.1016/j.biomaterials.2018.09.026Koffler+,W.Zhu+,X.Qu,O.Platoshyn,J.Dulin,J.Brock,L.Graham,P.Lu,J.Sakamoto,M.Marsala,S.C.Chen*,M.H.Tuszynski*,Biomimetic3D-PrintedScaffoldsforSpinalCordInjury,NatureMedicine,Vol.25,pp.263-269,2019.?????HighlightedinNatureReviewsNeuroscience,Jan.29,2019,reportedbyNIHDirectorsBlog?on?????June6,2019.Tang,Q.Xie*,R.C.Gimple,Z.Zhong,T.Tam,J.Tian,R.L.Kidwell,?Q.Wu,B.C.Prager,Z.Qiu,A.Yu,Z.Zhu,P.Mesci,H.Jing,J.Schimelman,P.Wang,D.Lee,M.H.Lorenzini,?D.?Dixit,L.Zhao,S.Bhargava,T.E.Miller,X.Wan,J.Tang,B.Sun,B.F.Cravatt,A.R.Muotri,S.C.Chen*,J.N.Rich*,Three-dimensionalbioprintingenablescreationoftissue-informedglioblastomamicroenvironmentsformodelingcomplexcellularinteractions,CellResearch,inpress,2020Wangpraseurt*,S.You,F.Azam,G.Jacucci,O.Gaidarenko,M.Hildebrand,M.Kühl,A.G.Smith,M.P.Davey,A.Smith,D.D.Deheyn,S.C.Chen*,S.Vignolini*,3DPrintedBionicCorals,NatureCommunications,Vol.11,1748(1-8),2020.����。
圖十九、制氫3D打印肝臟解毒裝置(A)聚二乙炔納米粒子包裹在PEGDA中的3D肝臟驅(qū)動解毒裝置的熒光圖像����。從最新的3D打印技術(shù)進展表明�,項目它們有望滿足這些要求�。
圖九、獲批河鋼3D打印的NOr-PGS將Nor-PGS3D打印為(A)立方體����,獲批河鋼(B)鼻子形和(C)耳朵形結(jié)構(gòu)圖十、聚氨酯的聚合機理(A)多元醇/多胺和擴鏈劑與過量二異氰酸酯之間的一級聚合�����。
(B)聚合物鏈的官能團在半靜態(tài)溶液中通過交聯(lián)形成網(wǎng)絡(luò)�����,加快京津冀制局導致局部不均勻(C)聚合形成一個基本有序��、均勻的網(wǎng)絡(luò)���。大數(shù)據(jù)時代�����,氫網(wǎng)企業(yè)必須改變營銷策略���,無論是品牌建設(shè)�����,還是價值觀��,必須與消費者建立共鳴�����。
正如世界品牌實驗室主席、絡(luò)布諾貝爾經(jīng)濟學獎得主羅伯特蒙代爾教授所言�,絡(luò)布當前中國經(jīng)濟進入調(diào)結(jié)構(gòu)的改革關(guān)鍵時期,增強品牌自主創(chuàng)新��,創(chuàng)造品牌經(jīng)濟效益�����,是供給側(cè)改革的議題之一�����,也是新的增長動力。九牧榮獲廚衛(wèi)行業(yè)中國品牌年度大獎NO.1稱號哈佛大學商學院教授約翰戴騰博士�����、制氫劍橋大學制造業(yè)研究院教授斯蒂芬埃文斯博士出席會議發(fā)表精彩演講�,制氫并為獲獎企業(yè)頒獎。
哈佛商學院教授約翰戴騰博士認為�,項目過去,數(shù)據(jù)一直是其他活動的副產(chǎn)品����,現(xiàn)在數(shù)據(jù)是企業(yè)戰(zhàn)略的核心。九牧深入研究市場及消費者新的消費需求�����,獲批河鋼做好��、獲批河鋼做強產(chǎn)品品質(zhì)的同時����,將互聯(lián)網(wǎng)、物聯(lián)網(wǎng)�、大數(shù)據(jù)等智造要素融入到技術(shù)創(chuàng)新和精工制造上,將微創(chuàng)新與工匠精神結(jié)合���,打造具有智能化���、自動化�、信息化三化一體的產(chǎn)品和價值生態(tài)鏈���。