2019年海南大学材料与化工学院考研调剂信息
学校:海南大学专业:工学->化学工程与技术理学->化学工学->材料科学与工程年级:2019招生人数:5招…
海南大学研究生招生网微信公众号
学校:海南大学
专业:工学->化学工程与技术
理学->化学
工学->材料科学与工程
年级:2019
招生人数:5
招生状态:正在招生中
海南大学材料与化工学院高艳安创新研究团队招聘信息招聘岗位:正式职工、博士后、研究生
具体工作地点:
海南省海口市美兰区人民大道58号海南大学
薪金:
按海南大学标准执行
研究方向:
框架多孔材料
招聘岗位:
职工、博后、研究生
联系人:
王明:17889843620或闫倩倩:15595670855
邮箱:
ygao@hainu.edu.cn
请将附件中的简历填写好,并发送至高老师:ygao@hainu.edu.cn
邮件标题为:姓名-初试分数-本科学校-专业
简历从附件中下载
要求:
(1)化学,材料相关专业;
(2)踏实肯干,具有良好的科研道德和团队精神;
(3)初试科目必须有数学
课题组介绍
高艳安研究员带领的创新研究团队成立于2017年10月,依托海南大学材料与化工学院研究平台,多年来从事能源新材料的分子设计、组装机机理及其在催化、气体小分子的吸附/分离等领域的研究工作。
研究方向
(1)有机多孔高分子材料(COFs、CMP)的分子设计、可控组装及其在能源与环境领域的应用研究:
以晶态框架多孔高分子材料的结构设计、可控组装与功能化为目的,发展新型晶体工程方法学;围绕以合成反应和功能探索和应用开发为工作中心,开发一系列新型的合成反应,制备一系列新型的有机框架高分子材料,重点探索其气体吸附、催化和储能功能,开拓其应用前景。在上述基础上,全方位地研究有机多孔材料的结构、化学和物理性质及其相互关系开发净化室内空气的新技术和新产品。
(2)离子液体参与构筑的分子组装软物质材料及其形成机理与功能探索研究:
研究和开发新型功能化软物质材料,以离子液体为绿色介质,构筑新型功能化两亲分子自组装,探索该软物质材料的微观结构特性、形成机理以及新的功能。
课题组长信息
http://www.hainu.edu.cn/stm/cailiaohuagong/2017113/10493798.shtml
主持项目情况:
(1)、海南大学科研启动基金,资助年限:2018.01-2022.12,300万元。
(2)、国家自然科学基金面上项目:主持,离子液体的热化学性质研究,项目资助号:21073189,资助年限:2011.01-2013.12,40万元。
(3)、国家自然科学基金面上项目:主持,新型功能化离子液微乳液的形成、性质以及应用探索研究,项目资助号:21273235,资助年限:2013.01-2016.12。82万元。
(4)、国家自然科学基金面上项目:主持,一种新型无表面活性剂离子液微乳液的结构、性质及其形成机理的探索性研究,项目资助号:21473196,资助年限:2015.01-2018.12。80万元。
(5)、中国科学院百人计划人才项目:主持,2013.10-2016.09,200万元。
(6)、大连化学物理研究所甲醇转化与煤代油新技术基础研究专项基金:主持,功能化共价有机框架(COFs)材料催化甲醇经三聚甲醛制备柴油添加剂DMMn的催化性能研究,项目资助号:DICP_M201401,资助年限:2014.06-2017.05,100万元。
(7)、中国科学院知识创新工程领域前沿项目:主持,有机多孔聚合物的制备、功能化及其空气的吸附与净化,资助年限:2012.12-2014.11,100万元。
(8)、大连化学物理研究所所长基金:有机多孔聚合物的制备及其在CO2吸附与转化方面的应用研究,资助年限:2012.10-2014.09,100万元。
(9)、陕西省延长石油集团探索性科研项目:主持,离子液体催化CO2和甘油转化制备高附加值产物甘油碳酸酯的研究,资助年限:2014.12-2016.12,80万元。
(10)、辽宁省科技厅自然科学基金项目:主持,温敏型离子液微乳液的形成、性质及其应用研究,项目资助号:201204484,资助年限:2012.07-2014.6,5万元。
代表性论文:
(1)、YingxiangXin,ChangWang,*YuWang,JianjunSun*andYananGao*,Encapsulationofanionicliquidintothenanoporesofa3Dcovalentorganicframeworks,RSCAdv.2017,7,1697.
(2)、DuncanW.Bruce,*YananGao,JosNunoCanongiaLopes,*KarinaShimizuandJohnM.Slattery*,Liquid-CrystallineIonicLiquidsasOrderedReactionMediafortheDiels–AlderReaction,Chem.Eur.J.2016,22,16113.
(3)、WenguangLeng,YongshengPeng,JianqiangZhang,HuiLu,XiaoFeng,RileGe,BinDong,BoWang,XiangpingHuandYananGao*,SophisticatedDesignofCovalentOrganicFrameworkswithControllableBimetallicDockingforaCascadeReaction,Chem.Eur.J.2016,22,9087.
(4)、BinDong,LiangyingWang,ShangZhao,RileGe,XuedanSong,YuWangandYananGao*,ImmobilizationofionicliquidstocovalentorganicframeworksforcatalyzingtheformylationofamineswithCO2andphenylsilanes,Chem.Commun.2016,52,7082.
(5)、RileGe,DandanHao,QiShi,BinDong,WenguangLeng,ChangWang,andYananGao*,TargetsynthesisofanAzo(N=N)basedcovalentorganicframeworkwithhighCO2overN2selectivityandbenigngasstoragecapability,J.Chem.Eng.Data,2016,61,1904.
(6)、WenguangLeng,RileGe,BinDong,ChangWangandYananGao*,Bimetallicdockedcovalentorganicframeworkswithhighcatalyticperformancetowardstandemreactions,RSCAdv.2016,6,37403.
(7)、TongtongTian,QiongzhengHu,YiWang,YananGao,andLiYu*,ReversiblePhotoresponsiveMolecularAlignmentofLiquidCrystalsatFluidInterfaceswithPersistentStability,Chem.Eur.J.2016,22,6340.
(8)、ShangZhao,BinDong,RileGe,ChangWang,XuedanSong,WeiMa,YuWang,CeHao,andYananGao*,Channel-wallfunctionalizationincovalentorganicframeworksfortheenhancementofCO2uptakeandCO2/N2selectivity,RSCAdv.2016,6,38774.
(9)、NawshadMuhammad*,YananGao*,FarasatIqbal,PervaizAhmad,RileGe,UmarNishan,AbdurRahim,GirmaGonfa,ZahoorUllah,Extractionofbiocompatiblehydroxyapatitefromfishscalesusingnovelapproachofionicliquidpretreatment,SeparationandPurificationTechnology,2016,161,129.
(10)、LiangyingWang,BinDong*,RileGe,FengxingJiang,JinhuaXiong,YananGao*,JingkunXu*,Athiadiazole-functionalizedcovalentorganicframeworkforefficientCO2captureandseparation,MicroporousandMesoporousMaterials,2016,224,95.
(11)、TongtongTian,QiongzhengHu,YiWang,YananGao,andLiYu*,EffectofImidazolium-BasedSurface-ActiveIonicLiquidsontheOrientationofLiquidCrystalsatVariousFluid/LiquidCrystalInterfaces,Langmuir,2016,32,11745.
(12)、HuiLu,ChangWang,JuanjuanChen,RileGe,WenguangLeng,BinDong,JunHuangandYananGao*,Anovel3Dcovalentorganicframeworkmembranegrownonaporousα-Al2O3substrateundersolvothermalconditions,Chem.Commun.,2015,51,15562.
(13)、YanhuiBi,LiuchenZhao,QiongzhengHu,YananGao,andLiYu*,AggregationBehaviorofImidazolium-BasedSurface-ActiveIonicLiquidswithPhotoresponsiveCinnamateCounterionsintheAqueousSolution,Langmuir,2015,31,12597.
(14)、WenwenXu,QiwenYin,YananGao,andLiYu*,SolventandSubstituentEffectsontheAggregationBehaviorofSurface-ActiveIonicLiquidswithAromaticCounterionsandtheDispersionofCarbonNanotubesintheirHexagonalLiquidCrystallinePhase,Langmuir,2015,31,12644.
(15)、XiaofeiYang,BinDong,HongzhangZhang,RileGe,YananGao*andHuaminZhang*,Sulfurimpregnatedinamesoporouscovalentorganicframeworkforhighperformancelithium–sulfurbatteries,RSCAdv.,2015,5,86137.
(16)、JuanjuanChen,ChangWang,BinDong,WenguangLeng,JunHuang*,RileGe,YananGao*,Ionicliquidsasecofriendlycatalystsforconvertingglycerolandureaintohighvalue-addedglycerolcarbonate,ChineseJournalofCatalysis,2015,36,336.
(17)、YongshengPeng,WenguangLeng,BinDong,RileGe,HongdongDuan*,YananGao*,Bottom-uppreparationofgoldnanoparticle-mesoporoussilicacompositenanotubesasacatalystforthereductionof4-nitrophenol,ChineseJournalofCatalysis,2015,36,1117.
(18)、BinDong,XueqingXing,RuiWang,BingWang,XiaoyanZhou,ChangWang,LiYu,ZhonghuaWuandYananGao*,Reversibleswitchingofamphiphilicself-assembliesbetweenmicellesandmicroemulsionsbyathermalstimulus,Chem.Commun.,2015,51,11119.
(19)、XinpeiGao,FeiLu,BinDong,YizhiLiu,YananGaoandLiqiangZheng*,Facilesynthesisofgoldandgold-basedalloynanowirenetworksusingwormlikemicellesassofttemplates,Chem.Commun.,2015,51,843.
(20)、BinDongandYananGao*,VariousSelf-AssemblyBehaviorsofAmphiphilicMoleculesinIonicLiquids,CharpterofIonicLiquids-CurrentStateoftheArt,2015,INTECH.
(21)、DandanHao,JinnaZhang,HuiLu,*WenguangLeng,RileGe,*XiaonanDaiandYananGao,FabricationofaCOF-5membraneonafunctionalizeda-Al2O3ceramicsupportusingamicrowaveirradiationmethod,Chem.Commun.,2014,50,1462.
(22)、YueWang,WenguangLeng,YananGao,*andJianshengGuo*,Thermo-SensitivePolymer-GraftedCarbonNanotubeswithTemperature-ControlledPhaseTransferBehaviorbetweenWaterandanIonicLiquid,ACSAppl.Mater.Interfaces,2014,6,4143.
(23)、RuiWang,WenguangLeng,YananGao*andLiYu*,Microemulsion-likeaggregationbehaviourofanLCST-typeionicliquidinwater,RSCAdv.,2014,4,14055.
(24)、LinaMa,WenguangLeng,YaopengZhao,YananGao*andHongdongDuan*,GoldnanoparticlessupportedontheperiodicmesoporousorganosilicaSBA-15asanefficientandreusablecatalystforselectiveoxidationofsilanestosilanols,RSCAdv.,2014,4,6807.
(25)、ChangWang,JingLiu,WenguangLengandYananGao*,RapidandEfficientFunctionalizedIonicLiquid-CatalyzedAldolCondensationReactionsAssociatedwithMicrowaveIrradiation,Int.J.Mol.Sci.2014,15,1284.
(26)、TingtingBai,RileGe,YananGao,*JinlingChai*andJohnM.Slattery,Theeffectofwateronthemicrostructureandpropertiesofbenzene/[bmim][AOT]/[bmim][BF4]microemulsions,Phys.Chem.Chem.Phys.,2013,15,19301.
(27)、ChangWang,XiumeiLiu,MiaoYang,HuiyuanMa,JohnM.SlatteryandYananGao*,Agreenandefficientamine-functionalizedionicliquid/H2Ocatalyticsystemforthesynthesisofa,a‘-bis(substitutedbenzylidene)cyclopentanones,RSCAdv.,2013,3,8796.
(28)、LiangWang,HongZhang,RileGe,ChaoleiWang,WeiGuo,YantaoShi,YananGao*andTingliMa*,Firstapplicationofbis(oxalate)borateionicliquids(ILBOBs)inhigh-performancedye-sensitizedsolarcells,RSCAdv.,2013,3,12975.
(29)、QingguoZhang,YingWei,SisiSun,ChangWang,MiaoYang,QingshanLiu*,YananGao*,StudyonThermodynamicPropertiesofIonicLiquidN-Butyl-3-methylpyridiniumBis(trifluoromethylsulfonyl)imide,JChemEngData,2012,57,2185.
(30)、YananGao,*J.M.Slattery,D.W.Bruce.*ColumnarThermotropicMesophasesformedbyDimericLiquid-CrystallineIonicLiquidsExhibitingLargeMesophaseRanges,NewJournalofChemistry,2011,35,2910.
(31)、MingweiZhao,YananGao,ZhengLQ*,etal,LiquidCrystallinePhasesoftheAmphiphilicIonicLiquidN-Hexadecyl-N-methylpyrrolidiniumBromideFormedintheIonicLiquidEthylammoniumNitrateandinWater,J.Phys.Chem.B,2010,114,11382.
(32)、BinDong,YananGao,SuYJ,ZhengLQ*,XuJK,InoueT,Self-AggregationBehaviorofFluorescentCarbazole-TailedImidazoliumIonicLiquidsinAqueousSolutions,J.Phys.Chem.B,2010,114,340.
(33)、XinweiLi,YananGao,LiuJ,ZhengLQ*,ChenB,WuLZ,TungCH,AdsorptionandAggregationBehaviorofChiralLong-chainedIonicLiquidinAqueousSolution,J.ColloidInterfaceSci,2010,343,94.
(34)、GuoliLi,YananGao,LiXW,LiuJ,ZhengLQ*,XingH,XiaoJX,AggregationBehaviorofN-AlkylPerfluorooctanesulfonamidesinDimethylSulfoxideSolution,JournalofColloidandInterfaceScience,2010,342,372.
(35)、ZhaoMW,YananGao,ZhengLQ*,DongB,MicroporousSilicaHollowMicrospheresandHollowWorm-likeMaterials:ASimpleSynthesisMethodandtheirApplicationinControlledDrugDelivery,EuropeanJournalofInorganicChemistry.2010,6,975.
(36)、YananGao,NaLi,SHZhang,LiqiangZheng*,etal,OrganicSolventsInducetheFormationofOil-in-IonicLiquidMicroemulsionAggregations.,JournalofPhysicalChemistryB.2009,113,1389.
(37)、YananGao,NaLi,X.W.Li,ZhangSH,LiqiangZheng*,etal.MicrostructuresofMicellarAggregationsFormedwithin1-Butyl-3-MethylimidazoliumTypeIonicLiquids.JournalofPhysicalChemistryB.2009,113,123.
(38)、YananGao,NaLi,HilfertL,etal.TemperatureInducestheMicrostructuralChangeofIonicLiquid-ContainingMicroemulsions,Langmuir.2009,25,1360.
(39)、BaiXT,YananGao,LiuHG,ZhengLQ*,SynthesisofAmphiphilicIonicLiquidsTerminatedGoldNanorodsandTheirSuperiorCatalyticActivityfortheReductionofNitroCompounds,J.Phys.Chem.C,2009,113,17730.
(40)、NaLi,YananGao,ShaohuaZhang,XinweiLi,etal,EffectofPolyethyleneglycol(PEG-400)onthe1-butyl-3-methylimidazoliumTetrafluoroborate-in-CyclohexaneIonicLiquidMicroemulsion,ColloidandPolymerScience,2009,287,103.
(41)、YananGao,SundmacherK,VoigtA*,etal,NanodropletClusterFormationinIonicLiquidMicroemulsions,ChemPhysChem.2008,9,1603.
(42)、YananGao,VoigtA,SundmacherK*,etal,SynthesisofMicrometer-ScaleSingle-CrystalGoldNanoprismsUsingasolvent-reactant-templateIonicLiquid,EuropeanJournalofInorganicChemistry.2008,3769.
(43)、YananGao,HilfertL,VoigtA,SundmacherK*,etal.WaterDecreasestheSizeofIonicLiquidDropletsofthe1-Butyl-3-methylimidazoliumTetrafluoroborate/TritonX-100/CyclohexaneReverseMicroemulsions,J.PhysChemB.,2008,112,3711.
(44)、ZhangSH,LiN,ZhengLQ*,LiXW,YananGao,YuL,AggregationBehaviorofPluronicTriblockCopolymerin1-butyl-3-methylimidazoliumTypeIonicLiquids,JournalofPhysicalChemistryB,2008,112,10228.
(45)、WuJP,LiN,ZhengLQ*,YananGao,AggregationBehaviorofTween20inImidazoliumBasedIonicLiquids,Langmuir,2008,24,9314.
(46)、YananGao,VoigtA,HilfertH,SundmacherK*,EffectofPolyvinylpyrrolidoneontheMicrostructureofBMIMPF6/TritonX-100/CyclohexaneMicroemulsions,ColloidandSurfaceA,2008,329,146.
(47)、YananGao,LiN,ZhengLQ*,etal,RoleofSolubilizedWaterintheReverseIonicLiquidMicroemulsionof1-Butyl-3-methylimidazoliumTetrafluoroborate/TX-100/Benzene,JPhysChemB.,2007,111,2506.
(48)、YananGao,WangSQ,ZhengLQ*,etal,StudyontheDynamicSurfaceTensionofNonionicSurfactantLS45andLS54Solutions,JournalofDispersionScienceandTechnology,2007,28,181.
(49)、YananGao,LiN,ZhengLQ*,etal,TheEffectofWaterontheMicrostructureof1-Butyl-3-methylimidazoliumTetrafluoroborate/TritonX-100/BenzeneIonicLiquidMicroemulsions,Chemistry-AEuropeanJournal,2007,13,2661.
(50)、LiN,YananGao,ZhengLQ*,etal,WaterLocatedintheContinuousOrganicPhaseof1-butyl-3-methylimidazoliumTetrafluorobotate/TritonX-100/TrithylamineReverseMicroemulsions,ChemPhysChem,2007,8,2211.
(51)、NaLi,YananGao,BaiXT,ZhengLQ*,etal,SynthesisofSilverNanoparticlesinIonicLiquidbyaSimpleEffectiveElectrochemicalMethod,JournalofDispersionScienceandTechnology,2007,28,1030.
(52)、LiN,YananGao,ZhengLQ*,etal,StudiesontheMicropolaritiesofBmimBF4/TX-100/TolueneIonicLiquidMicroemulsionsandtheirBehaviorsCharacterizedbyUV-VisibleSpectroscopy,Langmuir,2007,23,1091.
(53)、YananGao,XueyanZhao,BinDong,LiqiangZheng*,etal.InclusionComplexesofbeta-CyclodextrinwithIonicLiquidSurfactants,J.PhysChemB.,2006,110,8576.
(54)、YananGao,NaLi,ZhengLQ*,etal.ACyclicColtammetricTechniquefortheDetectionofMicro-regionsofbmimPF6/Tween20/H2OMicroemulsionsandtheirPerformanceCharacterizationbyUV-VisSpectroscopy,GreenChemistry,2006,8,43.
(55)、YananGao,JinZhang,HongyanXu,LiqiangZheng*,etal.StructuralStudiesof1-Butyl-3-methylimidazoliumTetrafluoroborate/TX-100/P-xyleneIonicLiquidMicroemulsions,ChemPhysChem,2006,7,1554.
(56)、YananGao,SuqingWang,LiqiangZheng,etal,MicroregionDetectionofIonicLiquidMicroemulsions,JournalofColloidandInterfaceScience,2006,301,612.
(57)、YananGao,ShuaibingHan,BuxingHan,etal.TX-100/Water/1-Butyl-3-methylimidazoliumHexafluorophosphateMicroemulsions,Langmuir,2005,21,5681.
(58)、YananGao,ZonghaoLi,JiminDu,BuxingHan,etal,PreparationandCharacterizationofInclusionComplexesofbeta-CyclodextrinwithIonicLiquid,Chemistry-AEuropeanJournal,2005,11,5875.
(59)、WangZN,LiuF,YananGao,GanzuoLi,etal,HexagonalLiquidCrystallinePhasesFormedinTernarySystemsofBrij97-Water-IonicLiquids,Langmuir,2005,21,4931.
(60)、LiZH,LiuZM,HanBX,YananGao,JiangT,SynthesisofSingle-crystalGoldNanosheetsinIonicLiquids,JournalofPhysicalChemistryB,2005,109,14445.
专利情况:
(1)、高艳安,王宇,王畅,董彬,一种提高有机框架多孔材料化学稳定性的方法,中国发明专利,申请日:2016.11.30,申请号:201611087710.8
(2)、高艳安,马颖,王畅,一种四(4-硼酸苯基)金刚烷及其制备方法,中国发明专利,申请日:2016.11.30,申请号:201611082494.8
(3)、高艳安,罗婷,王宇,王畅,三维联吡啶功能化的有机多孔材料及其合成方法和应用,中国发明专利,申请日:2016.11.30,申请号:201611090636.5
(4)、高艳安,王宇,王畅,罗婷,一种三维聚酰亚胺共价有机多孔材料及其制备方法和应用,中国发明专利,申请日:2016.11.30,申请号:201611081286.6
(5)、高艳安,王子瑜,王畅,一种利用离子液体合成三维共价有机框架材料的方法,中国发明专利,申请日:2016.11.30,申请号:201611092847.2
(6)、高艳安,辛英祥,王畅,由多孔材料负载离子液体的复合材料及其制备方法和应用,中国发明专利,申请日:2016.11.30,申请号:201611081105.X
(7)、高艳安,王宇,王畅,一种1,2-丙二醇与二氧化碳合成碳酸丙烯酯的方法,中国发明专利,申请日:2016.11.30,申请号:201611090708.6
(8)、高艳安,罗婷,王宇,一种非贵金属负载多孔碳材料的制备方法及其应用,中国发明专利,申请日:2016.11.30,申请号:201611082103.2
(9)、高艳安,辛英祥,王畅,格日乐,基于蝶形三环喹唑啉单元的有机多孔材料及其合成方法,中国发明专利,申请日:2016.11.30,申请号:201611081487.6
(10)、高艳安,王畅,马颖,一种三维金刚烷有机框架多孔材料的合成方法,中国发明专利,申请日:2016.11.30,申请号:201611087761.0
(11)、高艳安,王畅,万宁波,一种含有卟啉基团的多孔聚合物及其制备方法,中国发明专利,申请日:2016.11.30,申请号:201611092463.0
(12)、高艳安,王宇,王畅,罗婷,基于四硫富瓦烯单元的三维共价有机框架材料及合成方法,中国发明专利,申请日:2016.11.30,申请号:201611081033.9
(13)、高艳安,马颖,辛英祥,王畅,一种炔基功能化共价有机框架材料及其合成方法和应用,中国发明专利,申请日:2016.11.29,申请号:201611071988.6
(14)、高艳安,王宇,王畅,辛英祥,基于金刚烷单元的三维共价有机框架材料及其合成和应用,中国发明专利,申请日:2016.10.9,申请号:201610880234.9
(15)、高艳安,董彬,王良迎,一种芴功能化的共价有机框架材料及其制备和热电应用,中国发明专利,申请日:2016.10.9,申请号:201610884019.6
(16)、高艳安,景学超、王宇,基于共价有机框架材料的多孔碳的制备方法及多孔碳材料,中国发明专利,申请日:2016.8.10,申请号:201610649893.1
(17)、高艳安,景学超、冷文光,冯璐,离子共价有机框架催化剂及制备方法和催化应用,中国发明专利,申请日:2016.6.24,申请号:201610481749.1
(18)、高艳安,董彬,王良迎,冯璐,一种离子化共价有机框架材料及其制备方法和催化应用,中国发明专利,申请日:2016.6.2,申请号:201610383634.9
(19)、高艳安,张健强,冷文光,王宇,格日乐,共价有机框架负载钴催化剂及其制备和应用,中国发明专利,申请日:2016.5.25,申请号:201610353155.2
(20)、高艳安,冷文光,格日乐,董彬,王畅,负载型共价有机框架双金属催化剂及其制备方法和应用,中国发明专利,申请日:2016.5.13,申请号:201610318275.9
(21)、高艳安,王畅,冯璐,董彬,格日乐,冷文光,一种利用共价有机框架材料吸附碘的方法,中国发明专利,申请日:2015.11.12,申请号:201510776666.0
(22)、高艳安,董彬,一种富氮有机多孔材料的制备及有机多孔材料和应用,中国发明专利,申请日:2015.10.9,申请号:201510649955.4
(23)、高艳安,董彬,冯璐,王良迎,共价有机框架材料的制备及共价有机框架材料和其应用,中国发明专利,申请日:2015.9.25,申请号:201510622807.3
(24)、高艳安,格日乐,冯璐,郝丹丹,带偶氮功能基团共价有机化合物作为气体吸附材料的应用,中国发明专利,申请日:2015.7.29,申请号:201510455851.X
(25)、高艳安,王畅,冯璐,鲁辉,陈娟娟,一种在α-Al2O3陶瓷表面生长三维共价有机框架材料的方法,中国发明专利,申请日:2015.7.29,申请号:201510454408.0
(26)、高艳安,刘静,王畅,一种聚合离子液体接枝的磁性碳纳米管的制备方法,中国发明专利,2014年,申请号:201410079318.3
(27)、高艳安,鲁辉,冷文光,郝丹丹,张晋娜,α-Al2O3陶瓷表面生长微孔聚合物SNW薄膜的方法,中国发明专利,2014.3.5,申请号:201410076575.1
(28)、刘秀梅,王畅,刘静,高艳安,一种基于全氟烷基磺酸根阴离子的磺酸功能化离子液体及其制备方法,中国发明专利,2013年,申请号:201310021539.0
(29)、高艳安,王畅,刘静,一种α,β-不饱和酮化合物的绿色合成方法,中国发明专利,2013年,申请号:201310676114.3
(30)、高艳安,王畅,一种α,β-不饱和硝基烯烃化合物的绿色合成方法,中国发明专利,2013年,申请号:201310680731.0
(31)、高艳安,鲁辉,,冷文光,,郝丹丹,张晋娜,一种在α-Al2O3陶瓷表面生长共价有机框架薄膜的方法,中国发明专利,2013年,申请号:201310694053.3
(32)、高艳安,冷文光,王畅,冯璐,马丽娜,介孔材料SBA-15负载Au纳米颗粒制备SBA-PIL-Au:一种催化硅烷向硅醇高效转化的催化剂,中国发明专利,2013年,申请号:201310695169.9
(33)、刘秀梅,刘静,高艳安,一种长链烷基磺酸功能化杂多酸盐、制备方法及其应用,中国发明专利,2012.12.11,申请号:201210536159.6(授权公告号:CN103012276B,专利号:ZL201210536159.6)
(34)、刘秀梅,刘静,高艳安,一种以长链烷基磺酸功能化杂多酸盐为催化剂制备脂肪酸烷基酯的方法,中国发明专利,2012.12.17,申请号:201210555598.1(授权公告号:CN102993005B,专利号:ZL201210555598.1)