胡国庆 - 中国科学院力学研究所 -

个人简介

社会任职：中国力学学会副秘书长、中国力学学会流体力学专业委员会委员、中国力学学会“微纳尺度流动”专业组组长、北京力学会常务理事、北京力学会流体力学专委会主任 ActaMechanicaSinica编委、ScientificReports编委书籍及章节 4.Feng,G.,Hu,G.,Qiao,R.&Aluru,N.R.2015.Structureoftheelectricaldoublelayers:Insightfromcontinuumandatomisticsimulations,chapterinComputationalBioengineering.CRCPress. 3.李战华，吴健康，胡国庆，胡国辉.2012.微流控芯片中的流体流动.中国科学出版社. 2.Li,D.,Hu,G.2008.Nanoscalebiosensors,inEncyclopediaofMicro-andNanofluidics.Springer. 1.Hu,G.,Li,D.2008.Multiscalemodelingandnumericalsimulations,inEncyclopediaofMicro-andNanofluidics.Springer 研究生指导中科院优秀导师（2017）毕业研究生：宋奎（博士,2013）、焦豹（博士,2014）、王俊荣（博士,2014,中科院院长优秀奖）、刘超（博士,2015,首届中国力学优秀博士论文提名奖、中科院优秀博士博士论文奖、中科院院长优秀奖、博士生国家奖学金）、胡青林（博士，2017）、薛春东（博士，2017，博士生国家奖学金）、贺思远（硕士，2016）在读研究生：白轩、苏敬宏、王铎、黄艺荣承担科研项目情况： 1.自然科学基金重点项目“基于微纳流控肺器官芯片的纳米颗粒输运研究”2019-2023 2.中科院前沿科学重点项目2016-2020 3.中科院先导B子课题2016-2020 4.自然科学基金“基于粘弹性效应的颗粒微流控汇聚与分离”2016-2019 5.自然科学基金“吸入大气细颗粒物与肺表面活性剂、细胞交互作用的力学机制与生物学研究”2016-2018 6.973计划课题“生物分子在纳通道中的输运及调控”2011-2015 7.自然科学基金“基于绝缘结构介电泳微流控器件中的电热流动”2013-2016 8.中科院知识创新重要方向“基于微液滴的微流控系统基础理论研究”2009-2013 9.力学所特聘研究员创新项目“微纳米流动及输运研究”2007-2010 招聘博士后，力学、工程热、物理、应用数学、化工等专业均可,欢迎联系！

研究领域

微纳米流体力学、生物分子/颗粒/细胞/液滴输运及操控、微纳流控器件设计、颗粒与肺部交互作用

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

67.Wang,X.;Wang,X,;Bai,X.;Yan,L.;Liu,T.;Wang,M.;Song,Y.;Hu,G.;Gu,Z.;Miao,Q.&Chen,C.Nanoparticleligandexchangeanditseffectsatthenanoparticle-cellmembraneinterface.NanoLetters,doi:10.1021/acs.nanolett.8b02638(2018) 66.Shi,L.;Li,Y.;Meng,Y.,Hu,G.&Tian,Y.Fluidpropertyeffectsonthesplashinginteapoteffect.TheJournalofPhysicalChemistryC,122,21411-21417(2018) 65.Bai,X.;Xu,M.;Liu,S.&Hu,G.Computationalinvestigationsoftheinteractionbetweenthecellmembraneandnanoparticlescoatedwithapulmonarysurfactant.ACSAppliedMaterials&Interfaces,10,20368-20376(2018) 64.Wang,Y.;Chen,X.;Sun,K.;Li,K.;Zhang,F.;Dai,B.;Shen,J.;Hu,G.&Wang,S.Directionaltransportofcentimeter-scaleobjectonanisotropicmicrociliasurfaceunderwater.ScienceChinaMaterials,1,1-9(2018) 63.Su,J.;Chen,X.&Hu,G.Inertialmigrationsofcylindricalparticlesinrectangularmicrochannels:Variationsofequilibriumpositionsandequivalentdiameters.PhysicsofFluids,30,032007(2018,Editor'sPick) 62.Wang,J.;Yang,Y.;Yu,M.;Hu,G.;Gan,Y.;Gao,H.&Shi,X.Diffusionofrod-likenanoparticlesinnon-adheveandadhesiveporouspolymericgels.JournaloftheMechanicsandPhysicsofSolids,112,431-457(2018) 61.Liu,Y.;Chen,X.;Liu,S.&Hu,G.Quantitativeassessmentsofmechanicalresponsesuponradialextracorporealshockwavetherapy.AdvancedScience,3,1870015(2018,Frontispiece) 60.Luo,Z.;Li,S.;Xu,Y.;Ren,H.;Zhang,X.;Hu,G.;Huang,F.&Yue,T.Extractingpulmonarysurfactantstoforminversemicellesonsuspendedgraphenenanosheets.EnvironmentalScience:Nano,5,130-140(2018) 59.Zhang,T.;Wang,Y.;Zhang,F.;Chen,X.;Hu,G.;Meng,J.&Wang,S.Bio-inspiredsuperhydrophiliccoatingswithhighanti-adhesionagainstmineralscales.NPGAsiaMaterials,10,e471(2018) 58.Kale,A.;Song,L.;Lu,X.;Yu,L.;Hu,G.&Xuan,X.Electrothermalenrichmentofsubmicronparticlesinaninsulator-baseddielectrophoreticmicrodevice.Electrophoresis,doi:10.1002/elps.201700342(2017) 57.Shi,L.;Liu,Y.;Lu,H.;Meng,Y.;Hu,G.&Tian,Y.Viscousforceretardsinitialdropletspreading.JournalofPhysicalChemistryC,121,22054-22059(2017) 56.Tian,F.;Zhang,W.;Cai,L.;Li,S.;Hu,G.;Cong,Y.;Liu,C.;Li,T.&Sun,J.Microfluidicco-flowofNewtonianandviscoelasticfluidsforhigh-resolutionseparationofmicroparticles.LabonaChip,17,3078-3085(2017) 55.Liu,C.;Guo,J.;Tian,F.;Yang,N.;Yan,F.;Ding,Y.;Wei,J.;Hu,G.;Nie,G.&Sun,J.Field-freeisolationofexosomesfromextracellularvesiclesbymicrofluidicviscoelasticflows.ACSNano,11,6968-6976(2017) 54.Chen,X.;Sun,Y.;Xue,C.;Yu,Y.&Hu,G.Tunablestructuresofcompounddropletsformedbycollisionofimmisciblemicrodroplets.MicrofluidicsandNanofluidics,21,109(2017) 53.Hu,Q.;Bai,X.;Hu,G.&Zuo,Y.Y.Unveilingthemolecularstructureofpulmonarysurfactantcoronaonnanoparticles.ACSNano,11,6832-6842(2017) 52.Prabhakaran,R.A.;Zhou,Y.;Zhao,C.;Hu,G.;Song,Y.;Wang,J.;Yang,C.&Xuan,X.Inducedchargeeffectsonelectrokineticentryflow.PhysicsofFluids,29,062001(2017) 51.Lu,X.;Liu,C.;Hu,G.&Xuan,X.Particlemanipulationsinnon-Newtonianmicrofluidics:Areview.JournalofColloidandInterfaceScience,500,182(2017) 50.Liu,C.;Hu,G.High-throughputparticlemanipulationbasedonhydrodynamiceffectsinmicrochannels.Micromachines,8(3),73(2017,InvitedPerspective) 49.Prabhakaran,R.A.;Zhou,Y.;Kale,A.;Song,Y.;Hu,G.&Xuan,X.Jouleheatingeffectsonelectroosmoticentryflow.Electrophoresis,38(5),572-579(2017) 48.Liu,C.;Ding,B.;Xue,C.;Tian,Y.;Hu,G.&Sun,J.Sheathlessfocusingandseparationofdiversenanoparticlesinviscoelasticsolutionswithminimizedshearthinning.AnalyticalChemistry,88(24),12547-12553(2016) 47.Zhang,L.;Sun,J.;Wang,Y.;Wang,J.;Shi,X.&Hu,G.Anon-specificorganelle-targetingstrategywithcore-shellnanoparticlesofvariedlipidcomponents/ratios.AnalyticalChemistry,88(14),7344-7351(2016) 46.Xue,C.;Chen,X.;Liu,C.&Hu,G.Lateralmigrationofdualdroplettrainsinadoublespiralmicrochannel.ScienceChinaPhysics,Mechanics&Astronomy,59(7),1-10(2016) 45.Xue,C.;Zheng,X.;Chen,K.;Tian,Y.&Hu,G.Probingnon-Gaussianityinconfineddiffusionofnanoparticles.TheJournalofPhysicalChemistryLetters,7,514-519(2016) 44.Liu,C.;Xue,C.;Sun,J.&Hu,G.Ageneralizedformulaforinertialliftonasphereinmicrochannels.LabonaChip,16,884-892(2016) 43.Hu,Q.;Jiao,B.;Shi,X.;Valle,R.;Zuo,Y.&Hu,G.Effectsofgrapheneoxidenanosheetsonultrastructureandbiophysicalpropertiesofpulmonarysurfactantfilm.Nanoscale,7,18025-18029(2015) 42.Song,K.,Hu,G.,HuX.,Zhong,R.&Lin,B.Encodingandcontrollingoftwodroplettrainsinamicrofluidicnetworkwiththeloop-likestructure.MicrofluidicsandNanofluidics,19,1363-1375(2015) 41.Qian,Y.,Zhang,J.,Hu,Q.,Xu,M.,Chen,Y.,Hu,G.,Zhao,M.&Liu,S.Silvernanoparticles-inducedhemoglobindecreasealterationofhistone3methylationstatus.Biomaterials,70,12-22(2015) 40.Chen,X.,Song,Y.,Li,D.&Hu,G.Deformationandinteractionofdropletpairsinamicrochannelunderacelectricfields.PhysicalReviewApplied,4,024005(2015) 39.Feng,Q.,Zhang,L.,Liu,C.,Li,X.,Hu,G.,Sun,J.&Jiang,X.Microfluidicbasedhighthroughutsynthesisoflipid-polymerhybridnanoparticleswithtunablediameters.Biomicrofluidics,9,052604(2015) 38.Liu,C.,Xue,C.,Chen,X.,Shan,L.,Tian,Y.&Hu,G.Size-basedseparationofparticlesandcellsutilizingviscoelasticeffectsinstraightmicrochannels.AnalyticalChemistry,87,6041-6048(2015) 37.Chen,K.,Shan,L.,He,S.,Hu,G.,Meng,Y.&Tian,Y.Biphasicresistivepulsesandionconcentrationmodulationduringparticletranslocationthroughcylindricalnanopores.JournalofPhysicalChemistryC,119,8329-8335(2015) 36.陈晓东，胡国庆.微流控器件中的多相流动.力学进展,201503(2015) 35.Liu,C.,Hu,G.,Jiang,X.&Sun,J.InertialfocusingofsphericalparticlesinrectangularmicrochannelsoverawiderangeofReynoldsnumbers.LabonaChip,15,1168-1177(2015) 34.Chen,X.,Xue,C.,Zhang,L.,Hu,G.,Jiang,X.&Sun,J.Inertialmigrationofdeformabledropletsinamicrochannel.PhysicsofFluids,26,112003(2014) 33.Wang,J.,Zhang,L.,Xue,J.&Hu,G.Iondiffussioncoefficientmeasurementsinnanochannelsatvariousconcentrations.Biomicrofluidics,8,024118(2014) 32.Wang,J.,Chen,W.,Sun,J.,Liu,C.,Yin,Q.,Zhang,L.,Xiangyu,Y.,Shi,X.,Hu,G.&Jiang,X.AMicrofluidictubingmethodanditsapplicationtocontrolledsynthesisofpolymericnanoparticles.LabonaChip,14,1673-1677(2014) 31.Yu,W.,Qu,H.,Hu,G.,Zhang,Q.,Song,K.,Guan,H.,Liu,T.&Qin,J.Amicrofluidic-basedmulti-sheardeviceforinvestigatingtheeffectsoflowfluid-inducedstressesonosteoblasts.PLoSONE,9,e89966(2014) 30.Wang,J.,Ma,J.,Ni,Z.,Zhang,L.&Hu,G.Effectsofaccessresistanceontheresistive-pulsecausedbytranslocatingofananoparticlethroughananopore.RSCAdvances,4(15),7601-7610(2014) 29.Kale,A.,Patel,S.,Qian,S.,Hu,G.&Xuan,X.Jouleheatingeffectsonreservoir‐baseddielectrophoresis.Electrophoresis,35,721-727(2014) 28.Hu,G.,Jiao,B.,Shi,X.,Valle,R.P.,Fan,Q.&Zuo,Y.Y.Physicochemicalpropertiesofnanoparticlesregulatetranslocationacrosspulmonarysurfactantmonolayerandformationoflipoproteincorona.ACSnano,7(12),10525-10533(2013) 27.Kale,A.,Patel,S.,Hu,G.&Xuan,X.NumercialmodelingofJouleheatingeffectsininsulator-baseddielectrophoresismicrodevices.Electrophoresis,34,674-683(2013) 26.Sun,J.,Xianyu,Y.,Li,M.,Liu,W.,Zhang,L.,Liu,D.,Liu,C.,Hu,G.&Jiang,X.Amicrofluidicorigamichipforsynthesisoffunctionalizedpolymericnanoparticles.Nanoscale,5(12),5262-5265(2013) 25.Sun,J.,Liu,C.,Li,M.,Wang,J.,Xianyu,Y.,Hu,G.,&Jiang,X.Size-basedhydrodynamicraretumorcellseparationincurvedmicrofluidicchannels.Biomicrofluidics,7,011802(2013) 24.Sun,J.,Li,M.,Liu,C,ZhangY.,Liu,D.,Liu,W.,Hu,G.&Jiang,X.Doublespiralmicrochannelforlabel-freetumorcellseparationandenrichment.LabonaChip,12,3952-3960(2012) 23.Zhu,J.,Hu,G.&Xuan,X.Electrokineticparticleentryintomicrochannels.Electrophoresis,33,916-922(2012) 22.Zhu,J.,Sridharan,S.,Hu,G.&Xuan,X.Jouleheatingeffectsonelectrokineticfocusingandtrappingofparticlesinconstrictionmicrochannels.JournalofMicromechanicsandMicroengineering,22(7),075011(2012) 21.Lin,X.,Hu,G.,Chen,Q.,Niu,L.,Ostendorf,A.&Sun,H.Alight-driventurbine-likemicro-rotorandstudyonitslight-to-mechanicalpowerconversionefficiency.AppliedPhysicsLetters,101(11),113901(2012) 20.Song,K.,Zhang,L.&Hu,G.Modelingofdroplettrafficininterconnectedmicrofluidicladderdevices.Electrophoresis,33,411-418(2012) 19.Wang,L.,Sun,L.,Wang,C.,Chen,L.,Cao,L.,Hu,G.,Xue,J.&Wang,Y.Nanofluidicpulserbasedonpolymerconicalnanopores.JournalofPhysicalChemistryC,115,22736-22741(2011) 18.Sridharan,S.,Zhu,J.,Hu,G.&Xuan,X.Jouleheatingeffectsonelectroosmoticflowininsulator-baseddielectrophoresis.Electrophoresis,32,2274-2281(2011) 17.Zhu,J.,Tzeng,T.-R.J.,Hu,G.&Xuan,X.DCdielectrophoreticfocusingofparticlesinaserpentinemicrochannel.MicrofluidicsandNanofluidics,7,751-756(2009) 16.Sun,J.,Vajandar,S.K.,Xu,D.,Kang,Y.,Hu,G.,Li,D.&Li,D.Experimentalcharacterizationofelectricalcurrentleakageinpoly(dimethylsiloxane)microfluidicdevices.MicrofluidicsandNanofluidics,6,589-598(2009) 15.Hu,G.&Li,D.Microfluidiceffectsoftransportingsignalingcomponentsincellcoculturechips.MicrofluidicsandNanofluidics,6,99-107(2009) 14.Hu,G.,Quaranta,V.&Li,D.Modelingofeffectsofnutrientgradientsoncellproliferationinmicrofluidicbioreactor.BiotechnologyProgress,23,1347-1354(2007). 13.Hu,G.&Li,D.Three-dimensionalmodelingoftransportofnutrientsformulticellulartumorspheroidcultureinamicrochannel.BiomedicalMicrodevices,9,315-323(2007). 12.Hu,G.&Li,D.Multiscalephenomenainmicrofluidicsandnanofluidics.ChemicalEngineeringScience,62,3443-3454(2007). 11.Hu,G.,Gao,Y.&Li,D.Mo4delingmicropatternedantigen-antibodybindingkineticsinamicrofluidicchip.Biosensors&Bioelectronics,22,1403-1409,(2007) 10.Xuan,X.,Hu,G.&Li,D.Jouleheatingeffectsonseparationefficiencyincapillaryzoneelectrophoresiswithaninitialvoltageramp.Electrophoresis,27,3171-3180(2006). 9.Xiang,Q.,Hu,G.,Gao,Y.&Li,D.Miniaturizedimmunoassaymicrofluidicsystemwithelectrokineticcontrol.Biosensors&Bioelectronics,21,2006-2009(2006) 8.Hu,G.,Xiang,Q.,Fu,R.,Xu,B.,Venditti,R.&Li,D.Electrokineticallycontrolledreal-timepolymerasechainreactioninmicrochannelusingJouleheatingeffect.AnalyticaChimicaActa,557,146-151(2006) 7.Hu,G.,Lee,J.S.H.&Li,D.Amicrofluidicfluoroussolid-phaseextractionchipforpurificationofaminoacids.JournalofColloidandInterfaceScience,301,697-702(2006). 6.Hu,G.,Gao,Y.,Sherman,P.M.&Li,D.Amicrofluidicchipforheterogeneousimmunoassayusingelectrokineticalcontrol.MicrofluidicsandNanofluidics,1,346-355(2005) 5.Gao,Y.,Lin,F.Y.,Hu,G.,Sherman,P.M.&Li,D.DevelopmentofanovelelectrokineticallydrivenmicrofluidicimmunoassayforthedetectionofHelicobacterpylori.AnalyticaChimicaActa,543,109-116(2005) 4.Gao,Y.,Hu,G.,Lin,F.Y.H.,Sherman,P.M.&Li,D.Anelectrokinetically-controlledimmunoassayforsimultaneousdetectionofmultiplemicrobialantigens.BiomedicalMicrodevices,7,301-312(2005) 3.Igra,O.,Hu,G.,Falcovitz,J.&Wang,B.Y.Shockwavereflectionfromawedgeinadustygas.InternationalJournalofMultiphaseFlow,30,1139-1169(2004) 2.Igra,O.,Hu,G.,Falcovitz,J3.&Heilig,W.Blastwaivereflectionfromwedges.JournalofFluidsEngineering-TransactionsoftheASME,125,510-519(2003) 1.Igra,O.,Wu,X.,Hu,G..&Falcovitz,J.Shockwavepropagationintoadust-gassuspensioninsideadouble-bendconduit.JournalofFluidsEngineering-TransactionsoftheASME,124,483-491(2002) 书籍及章节 4.Feng,G.,Hu,G.,Qiao,R.&Aluru,N.R.2015.Structureoftheelectricaldoublelayers:Insightfromcontinuumandatomisticsimulations,chapterinComputationalBioengineering.CRCPress. 3.李战华，吴健康，胡国庆，胡国辉.2012.微流控芯片中的流体流动.中国科学出版社. 2.Li,D.,Hu,G.2008.Nanoscalebiosensors,inEncyclopediaofMicro-andNanofluidics.Springer. 1.Hu,G.,Li,D.2008.Multiscalemodelingandnumericalsimulations,inEncyclopediaofMicro-andNanofluidics.Springer