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个人简介办公电话:电子邮件:dongjian@tust.e.cn通讯地址:研究方向:[1]酿造酒(白酒、啤酒)用酵母、面包酵母、燃料乙醇酵母育种以及菌种工业应用;
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个人简介办公电话:电子邮件:jdcui@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究方向:[1]纳米生物催化与转化[2]药用蛋白颗粒化制备技术[3]人工纳米包衣的理性设计[4]食品防腐招生专业院系名称专业大类一级学科专业代码/专业名称学位类型招生类型类型生物工程学院专业学位工程085238生物工程专业型硕士全日制生物工程学院专业学位工程085221轻工技术与工程专业型硕士全日制生物工程学院工学工程085220轻工技术与工程学术型硕/博士全日制代表性论文先后发表SCI收录论文50篇,他引500多次。[1]JiandongCui*,SizhuRen,BaotingSun,ShiruJia.Optimizationprotocolsandimprovedstrategiesofmetal–organicframeworksforimmobilizingenzymes:currentdevelopmentandfuturechallenges.CoordinationChemistryReviews(JCR一区,IF14.499),2018,370,22-41.[2]SizhuRen,ConghaiLi,ZhileiTan,YingHou,ShiruJia,JiandongCui*.Carbonicanhydrase-embeddedZIF-8hydrogelmembranewithimprovedtherecyclingandstabilityforefficientCO2capture.JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2019,67,3372-3379.[3]JiandongCui*,SizhuRen,TaoLin,YuxiaoFeng,ShiruJia.ShieldingeffectsofFe3+-tannicacidnanocoatingsforimmobilizedenzymeonmagneticFe3O4@silicacoreshellnanosphere.ChemicalEngineeringJournal(JCR一区,IF6.735),2018,343,629-637.[4]JiandongCui*,YuxiaoFeng,ShiruJia.Silicaencapsulatedenzyme@metal-organicframeworkcomposite:ahighlystableandrecyclablebiocatalyst.ChemicalEngineeringJournal(JCR一区,IF6.735),2018,351,506-514.[5]HongjieBian,BaotingSun,JiandongCui*,SizhuRen,TaoLin,YuxiaoFeng,ShiruJia.BienzymemagneticnanobiocatalystwithFe3+-tannicacidfilmforonepotstarchhydrolysis,JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2018,66,8751-8760.[6]JiandongCui*,ShiruJia.Organic–inorganichybridnanoflowers:anovelhostplatformforbiomoleculesimmobilization.CoordinationChemistryReviews(JCR一区,IF14.499),2017,352,249-263.[7]JiandongCui*,YuxiaoFeng,TaoLin,ZhileiTan,ChengZhong,ShiruJia.Mesoporesmetal-organicframeworkwithwell-definedcruciatelike-flowermorphologyforenzymeimmobilization.ACSAppliedMaterials&Interfaces(JCR一区,IF8.097),2017,9(12),10587-10594.[8]JiandongCui*,YaminZhao,YuxiaoFeng,TaoLin,ChengZhong,ZhileiTan,ShiruJia*.Encapsulationofsphericalcross-linkedphenylalanineammonialyaseaggregatesinmesoporousbiosilica,JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2017,65,618-625.[9]JiandongCui*,ZhileiTan,PeipeiHan,ChengZhong,ShiruJia.EnzymeshieldinginlargemesoporoushollowbiosilicashellforimprovedtherecyclingandstabilitybasedonCaCO3microtemplatesandbiomimeticsilicification.JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2017,65(19),3883-3890.[10]JiandongCui,LiliCui,ShiruJia,ZhiguoSu,SongpingZhang*.Hybirdcross-linkedlipaseaggregateswithmagneticnanoparticles:arobustandrecyclablebiocatalysisforepoxidationofoleicacid.JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2016,64(38),7179-7187.[11]JiandongCui*.BiotechnologicalproctionandapplicationsofCordycepsmilitaris,avaluedtraditionalChinesemedicine,CriticalReviewsinBiotechnology(JCR一区,IF5.239),2015,35(4),475-484.[12]JiandongCui*,ShiruJia.Optimizationprotocolsandimprovedstrategiesofcross-linkedenzymeaggregatestechnology:currentdevelopmentandfuturechallenges.CriticalReviewsinBiotechnology(JCR一区,IF5.239),2015,35(1),15-28.[13]JiandongCui*,JiqingQiu,XianweiFan,ShiruJia,ZhileiTan.Biotechnologicalproctionandapplicationsofmicrobialphenylalanineammonialyase:arecentreview,CriticalReviewsinBiotechnology(JCR一区,IF5.239),2014,34(3),258-268.[14]JiandongCui*,YaminZhao,RonglinLiu,ShiruJia.Surfactantsactivatedlipasehybridnanoflowerswithdramaticallyenhancedenzymaticperformance.ScientificReports(JCR一区,IF4.122),2016,6,27928.[15]JiandongCui*,ShiruJia,LonghaoLiang,YaminZhao,YuxiaoFeng.MesoprousCLEAs-silicacompositemicroparticleswithhighactivityandenhancedstability,ScientificReports(JCR一区,IF4.122),2015,5,14203.[16]JiandongCui*,JiqingQiu.ProctionofextracellularwaterinsolublepolysaccharidefromPseudomonassp.JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2012,10,4865-4871.[17]BingzhuZhang,JiandongCui*.ModelingandoptimizationofphenylalanineammonialyasestabilizationinrecombinantEscherichiacoliforthecontinuoussynthesisofL-phenylalanineonthestatistical-basedexperimentaldesigns.JournalofAgriculturalandFoodChemistry(JCR一区,IF3.412),2010,58,2795-2800.[18]JiandongCui*,BaotingSun,TaoLin,YuxiaoFeng,ShiruJia.EnzymeshieldingbymesoporousorganosilicashellonFe3O4@silicayolk-shellnanospheres.InternationalJournalofBiologicalMacromolecules(JCR二区,IF3.909),2018,117,673-682.[19]SizhuRen,YuxiaoFeng,HuanWen,ConghaiLi,JiandongCui*,ShiruJia.Immobilizedcarbonicanhydraseonmesoporouscruciateflower-likemetalorganicframeworkforpromotingCO2sequestration.InternationalJournalofBiologicalMacromolecules(JCR二区,IF3.909),2018,117,189-198.[20]ZhileiTan,TaoBo,FengzhuGuo,JiandongCui*,ShiruJia.Effectsofε-Poly-L-lysineonthecellwallofSaccharomycescerevisiaeanditsinvolvedantimicrobialmechanism,InternationalJournalofBiologicalMacromolecules(JCR二区,IF3.909),2018,118,2315-2323.[21]JiandongCui*,TaoLin,YuxiaoFeng,ZhileiTan,ShiruJia.Preparationofsphericalcross-linkedlipaseaggregateswithimprovedactivity,stabilityandreusabilitycharacteristricinwater-in-ionicliquidmicroemulsion,JournalofChemicalTechnologyandBiotechnology(JCR二区,IF2.587),2017,92(7),1785-1793.[22]MuhammadBilal,TahirRasheed,YupingZhao,HafizM.N.Iqbal,JiandongCui*“Smart”chemistryanditsapplicationinperoxidaseimmobilizationusingdifferentsupportmaterials,InternationalJournalofBiologicalMacromolecules(JCR二区,IF3.909),2018,119,278-290.[23]JiandongCui*,YaminZhao,ChengZhong,ZhileiTan,PeipeiHan,ShiruJia.Mesoporousphenylalanineammonialyasemicrosphereswithimprovedstabilitythroughcalciumcarbonatetemplating.InternationalJournalofBiologicalMacromolecules(JCR二区,IF3.909),2017,98,887-896.[24]JiandongCui*,HongbaoLi,JianquanLuo,WeifengCao,ChangshengQiao,YinhuaWan.OnestepseparationofAureobasidiumpullulansfromβ-poly(L-malicacid)fermentationbrothbymembranestechnology,JournalChemicalTechnologyandBiotechnology(JCR二区,IF2.587),2017,92(4),845-853.[25]JiandongCui*,YuxiaoFeng,ShuYue,YaminZhao,LinboLi,RonglinLiu,TaoLin.Magneticmesoporousenzyme-silicacompositeswithhighactivityandenhancedstability,JournalChemicalTechnologyandBiotechnology(JCR二区,IF2.587),2016,91,6,1905-1913.[26]JiandongCui*,LianlianLi,YaminZhao.Simpletechniqueforpreparingstableandrecyclablecross-linkedenzymeaggregateswithcrude-poredmicrosphericalsilicacore.Instrial&EngineeringChemistryResearch(JCR一区,IF3.141),2014,53(42),16176-16182.[27]JiandongCui*,LiliCui,SongpingZhang.Hybridmagneticcross-linkedenzymeaggregatesofphenylalanineammonialyasefromRhodotorulaglutinis.PLoSONE(IF2.766),2014.9(5),e97221.[28]JiandongCui*,LianlianLi,HongjieBian.Immobilizationofcross-linkedphenylalanineammonialyaseaggregatesinmicroporoussilicagel,PLoSONE(IF2.766),2013,8(1),e53542.[29]JiandongCui*,RonglinLiu,LinboLi.Afaciletechniquetopreparecross-linkedenzymeaggregatesofbovinepancreaticlipaseusingbovineserumalbuminasanadditive,KoreanJournalofChemicalEngineering(JCR二区,IF2.199),2016.33(2),610-615.[30]JiandongCui*,LonghaoLiang,CongHan,RonglinLiu.StabilizationofphenylalanineammonialyasefromRhodotorulaglutinisbyencapsulationinpolyethyleneimine-mediatedbiomimeticsilica,AppliedBiochemistryandBiotechnology(IF1.797),2015,176,999-1011.[31]JiandongCui*,LimeiSun,LianlianLi.AsimpletechniqueofpreparingstableCLEAsofphenylalanineammonialyaseusingco-aggregationwithstarchandbovineserumalbumin,AppliedBiochemistryandBiotechnology(IF1.797),2013,170(8),1827-1837.[32]SiZhang,JiandongCui*.EnhancementofphenylalanineammonialyaseproctionfromRhodotorulamucilaginosabyoptimizationofcultureconditionsinbatchandfed-batch,BiotechnolBiotecEq(IF1.227),2012,6,3418-3423.[33]JiandongCui*,YananZhang.Evaluationofmetalionsandsurfactantseffectoncellgrowthandexopolysaccharideproctionintwo-stagesubmergedcultureofCordycepsmilitaris,AppliedBiochemistryandBiotechnology(IF1.797),2012,168,1394-1404.[34]JiandongCui*,SiZhang,LimeiSun.Cross-linkedenzymeaggregatesofphenylalanineammonialyase:novelbiocatalystsforsynthesisofL-phenylalanine,AppliedBiochemistryandBiotechnology(IF1.797),2012,167,835–844.[35]崔建东,李莹,姬晓元,边红杰,张羽飞,苏志国,马光辉,张松平.静电纺丝制备中空纤维原位固定化碳酸酐酶用于二氧化碳的吸收,高等学校化学学报,2014,35,1999-2006(封面文章).[36]崔建东,崔兆惠,苏志国,郑春阳,马光辉,张松平.生物3D打印蓖麻油基水性聚氨酯涂层固定碳酸酐酶研究,化工学报,2018,69(8),3577-3584(封面文章).主要著作[1]李艳主编《发酵工业概论》第二版,2011,参编第二章和第六章[2]贾士儒主编《生物工程专业实验》第二版,2011,参编科研项目[1]印迹交联酶聚体-离子液体-介孔氧化硅杂化催化剂的制备及其在不同介质中的催化性能,国家自然基金面上项目(21676069),2017-2020,主持。[2]天津市特聘教授科研经费,2018-2022,主持。[3]天津科技大学海河学者特聘教授科研经费,2017-2020,主持。[4]金属-有机骨架(MOFs)形貌结构的理性调控及其在固定化酶捕集转化CO2中的应用基础研究,河北省自然基金面上项目(B2018208041),2018-2020,主持。[5]基于有机金属骨架(MOFs)酶的固定化及其在CO2捕集转化中的应用基础研究,河北省百名优秀创新人才(III)资助项目(SLRC2017036),2017-2020,主持。[6]新型磁性交联酶聚体的制备、表征及其催化性能研究,河北省高层次人才工程资助项目,2014-2016,主持。[7]基于离子液体修饰的新型酶固载催化体系的建立及其催化性能研究,河北省自然基金面上项目(B2014208054),2014-2016,主持。[8]生物法生产长链二元酸关键技术开发及应用示范,国家863项目(2015AA021002),2015-2017,主研。[9]一步酶法转化CO2促进发菜细胞生长的研究,工业发酵微生物教育部重点实验室开放基金(2016IM001),2016-2018,主持。[10]基于印迹交联酶聚体技术酶活性构象的“复制”及其催化活性研究,国家自然科学基金面上项目(21072041),2011-2013,主持。[11]苯丙氨酸解氨酶活性构象的“刻录”、表征及其催化活性研究,中国科学院过程工程研究所生化工程国家重点实验室开放基金(2010KF-12),2010-2013,主持,[12]名贵中药-冬虫夏草菌两阶段高密度液体深层培养关键技术创新研究,河北省高等学校科学技术研究项目,2010128,2010-2012,主持。其他(获奖成果、专利)等专利[1] 北冬虫夏草多糖两阶段发酵合成工艺,国家发明专利,授权号ZL201110134499.1[2] 一种以微孔硅胶为内核的苯丙氨酸解氨酶交联酶聚体的制备方法,国家发明专利,授权号ZL201410149245.0。获奖情况2016年被美国化学会授予“Three-yearAmericanChemicalSocietymembershipaward”和“CertificateofAppreciationforValuableContributionandDedicatedServiceinthePeerReview(OutstandingReviewerAward)”。2019年国际埃尼奖提名。指导的2015、2016和2017级研究生连续三届获得国家奖学金、优秀研究生奖学金、一等研究生学业奖学金和一等研究生学业优秀奖学金。两人获得河北省优秀硕士论文。
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个人简介办公电话:022-60602822电子邮件:pphan@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究方向:[
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个人简介办公电话:电子邮件:fufengliu@tust.e.cn通讯地址:研究方向:1.淀粉样蛋白质聚集及其抑制剂开发;2.工业酶分子理性设计招生专
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个人简介办公电话:022-60601958电子邮件:lyh@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究方向:[1]
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个人简介办公电话:022-60912562电子邮件:liuzhen5957@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研
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个人简介办公电话:022-60601251电子邮件:qianma1987@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究
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个人简介办公电话:022-60601265电子邮件:msl@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究方向:[1]
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个人简介办公电话:022-60912562电子邮件:tyo201485@tust.e.cn通讯地址:天津经济技术开发区第十三大街29号天津科技大学生物工程学院研究方