吴考
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吴考,男,香港大学博士,副教授,湖北省“楚天学者计划”楚天学子。博士期间曾赴科威特大学与新西兰奥克兰大学交流学习。研究主要涉及多糖物理改性及变化规律、多糖基复合物的组装结构、亲疏水性和耐候性等方面。近几年,先后在FoodHydrocolloids,InternationalJournalofBiologicalMacromolecules等国际知名SCI杂志上发表论文24篇(含2区以上论文15篇)。参编国际学术专著1本(《PhysicalModificationsofStarch》,施普林格出版社),并独立撰写其中1章(MicrowaveTreatment)。主持纵向科研项目2项(含省级科研项目1项),参与国家自然科学基金项目和省级科研项目各1项。1.2017年,入选湖北省“楚天学者”计划“楚天学子”。2.2017年,指导本科生省级优秀毕业论文1篇。[1]留学人员科技活动项目择优资助经费,魔芋葡甘聚糖-可得然胶-胶原蛋白结构组装复合物对水分活度响应性研究,2017.01-2018.06,主持,在研。[2]魔芋葡甘聚糖基多糖-蛋白复合膜的水分活度响应性研究,湖北工业大学博士启动项目(BSQD2017029),2018.01-2019.12,主持,在研。[3]国家自然科学基金面上项目,基于复杂组成及结构食品体系的水分含量及水分转移规律动态分析测试方法研究(31671827),2017.01-2020.12,参与,在研。[4]湖北省技术创新专项(重大项目),植物多糖空气净化气凝胶的制备及吸附性能研究(2016ACA164),2019.09-2019.08,参与,在研。编写国际学术专著信息[1]KaoWu(2018).MicrowaveTreatment.InZhongquanSui&XiangliKong(Eds.),PhysicalModificationsofStarch(pp.97-117).Singapore:SpringerSingapore.研究领域
食品软物质结构与功能近期论文
[1]Shu,M.,Yao,X.,Wu,K.,Zhang,K.,Nishinari,K.,Phillips,G.O.,Yao,X.,&Jiang,F.(2018).Preparationandstabilityofnano-scaledgelbeadsofλ-carrageenanboundwithferricions.InternationalJournalofBiologicalMacromolecules,inpress.[2]RenyouGan,KinwengKong,HuabinLi,KaoWu,YingyingGe,ChaklunChan,XianmingShi,HaroldCorke.(2018).Separation,identification,andbioactivitiesofthemaingallotanninsofredswordbean(canavaliagladiata)coats.FrontiersinChemistry,inpress[3]KaoWu,QianZhu,HongQian,ManXiao,HaroldCorke,KatsuyoshiNishinari,FatangJiang*.(2018)Controllablehydrophilicity-hydrophobicityandrelatedpropertiesofkonjacglucomannanandethylcellulosecompositefilms,FoodHydrocolloids,79,301-309.[4]Wang,Y.,Wu,K.,Xiao,M.,Riffat,S.B.,Su,Y.,&Jiang,F.(2018).Thermalconductivity,structureandmechanicalpropertiesofkonjacglucomannan/starchbasedaerogelstrengthenedbywheatstraw.CarbohydratePolymers,197,284-291.[5]Chen,Y.,Shu,M.,Yao,X.,Wu,K.,Zhang,K.,He,Y.,Nishinari,K.,Phillips,G.O.,Yao,X.,&Jiang,F.(2018).Effectofzein-basedmicroencapsulesonthereleaseandoxidationofloadedlimonene.FoodHydrocolloids,84,330-336.[6]KaoWu,AnilGunaratne,RenyouGan,JinsongBao,HaroldCorke,FatangJiang*.(2018).Relationshipsbetweencookingpropertiesandphysicochemicalpropertiesinbrownandwhiterice,Starch-Starke,70(5-6),1700167.[7]XuewenNi,KaiWang,KaoWu,HaroldCorke,KatsuyoshiNishinari,FatangJiang.(2018).Stability,microstructureandrheologicalbehaviorofkonjacglucomannan-zeinmixedsystems,CarbohydratePolymers,188,260-267.[8]AnilGunaratne,RenyouGan,KaoWu,XiangliKong,LiliaCollado,LalVidhanaArachchi,KapilaKumara,SarathMalavipathirana,HaroldCorke.(2018).PhysicochemicalpropertiesofmungbeanstarchesisolatedfromfourvarietiesgrowninSriLanka,Starch–Starke,70(3-4),1700129.[9]ZehuaSun,LixinYan,JiansongTang,QianQian,JericaLenberg,DandanZhu,WanLiu,KaoWu,YilinWang,ShiqiangLu.(2018).BriefintroductionofcurrenttechnologiesinisolationofbroadlyneutralizingHIV-1antibodies,VirusResearch,243,75-82.[10]KaiWang,KaoWu,ManXiao,YingKuang,HaroldCorke,XuewenNi,FatangJiang.(2017).Structuralcharacterizationandpropertiesofkonjacglucomannanandzeinblendfilms,InternationalJournalofBiologicalMacromolecules,105,1096-1104.[11]JinlingLuan,KaoWu,CaoLi,JiaLiu,XuewenNi,ManXiao,YanglinXu,YingKuang,FatangJiang.(2017)pH-Sensitivedrugdeliverysystembasedonhydrophobicmodifiedkonjacglucomannan.CarbohydratePolymers,171,9-17.[12]RenyouGan,Wing-YeeLui,KaoWu,Chak-LunChan,ShuhongDai,ZhongquanSui,HaroldCorke.(2017).Bioactivecompoundsandbioactivitiesofgerminatededibleseedsandsprouts:Anupdatedreview.TrendsinFoodScience&Technology,59,1-14.[13]ManXiao,MingfengJiang,KaoWu,HaoYang,XuewenNi,WenliYan,GlynO.Phillips,FatangJiang.(2017).Investigationoncurdlandissociationbyheatinginwater.FoodHydrocolloids,70,57-64.[14]RenyouGan,MingfuWang,Wing-YeeLui,KaoWu,ShuhongDai,HaroldCorke,ZhongquanSui.(2017).Diversityinantioxidantcapacity,phenolicandflavonoidcontentsof42ediblebeansfromChina.CerealChemistry,94,291-297.[15]KaoWu,ShuhongDai,RenyouGan,HaroldCorke,FanZhu*(2016).Thermalandrheologicalpropertiesofmungbeanstarchblendswithpotato,sweetpotato,rice,andsorghumstarches.FoodandBioprocessTechnology,9(8),1408-1421.[16]KaoWu,RenyouGan,ShuhongDai,YizhongCai,HaroldCorke,FanZhu*(2016).Buckwheatandmilletaffectthermal,rheological,andgellingpropertiesofwheatflour.JournalofFoodScience,81(3),E627-636.[17]K.Wu,P.W.Lucas,A.Gunaratne,L.S.Collado,H.Corke,A.S.Almusallam,L.A.Thai(2016).Indentationasapotentialmechanicaltestfortexturalnoodlequality.JournalofFoodEngineering,177,42-49.[18]XuewenNi,WenjieChen,ManXiao,KaoWu,YingKuang,HaroldCorke,FatangJiang.(2016)Physicalstabilityandrheologicalpropertiesofkonjacglucomannan-ethylcellulosemixedemulsions,InternationalJournalofBiologicalMacromolecules,92,423-430.[19]XuewenNi,FanKe,ManXiao,KaoWu,YingKuang,HaroldCorke,FatangJiang.(2016)Thecontroloficecrystalgrowthandeffectonporousstructureofkonjacglucomannan-basedaerogels,InternationalJournalofBiologicalMacromolecules,92,1130-1135[20]RenyouGan,Wing-YeeLui,KaoWu,HaroldCorke.(2016).Thermaltreatmentsaffectthepolyphenolprofileandincreaseantioxidantcapacityinfivevarietiesofediblebeanmilks.InternationalJournalofFoodScience&Technology,51,954-961.[21]AnilGunaratne,KaoWu,LiliaCollado,RenyouGan,ArachchiLalVidhana,KapilaKumara,SarathMalaviPathirana,HaroldCorke.(2016).PhysicochemicalandfunctionalpropertiesofCaryotaurensflourascomparedtowheatflour.InternationalJournalofFoodScience&Technology,51,2647-2653.[22]RenyouGan,MingfuWang,Wing-YeeLui,KaoWu,HaroldCorke.(2016).Dynamicchangesinphytochemicalcompositionandantioxidantcapacityingreenandblackmungbean(Vignaradiata)sprouts.InternationalJournalofFoodScience&Technology,51,2090-2098.[23]KaoWu,A.Gunaratne,LiliaS.Collado,PeterW.Lucas,HaroldCorke.(2015).Adhesion,cohesionandfrictionestimatedfromcombiningcuttingandpeelingtestresultsforthinnoodlesheets.JournalofFoodScience,80(2),E370-376.[24]AnilGunaratne,KaoWu,DongqinLi,AmithaBentota,HaroldCorke,YizhongCai.(2013).Antioxidantactivityandnutritionalqualityoftraditionalred-grainedricevarietiescontainingproanthocyanidins,FoodChemistry,138(2-3),1153-1161. 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