个人简介

教育背景 2007/09-2010/07，陕西师范大学,化学化工学院,博士 2001/09-2004/07，苏州大学,化学化工学院,硕士 1995/09-1999/07，安徽工业大学,化学化工学院,学士 工作经历 2017/09-至今，西安科技大学,地质与环境学院,副教授 2012/07-2017/08，福建省绿色节能材料工程研究中心,副教授 2010/07-2012/06，福建省绿色节能材料工程研究中心,讲师 个人荣誉 2011年度福建省高校杰出青年科研人才 2016年度福建省高校新世纪优秀人才

研究领域

环境分析

科研项目 (1)正电纳米金参与的化学发光体系及其分析应用，国家自然科学青年基金(编号：21605018)，主持。 (2)负电纳米金化学发光分析新体系的研究和应用，福建省自然科学基金(编号：2015J01034)，主持。 (3)基于抗体修饰纳米金的均相化学发光免疫分析，福建省自然科学基金(编号：2011J05016)，主持。 (4)纳米金化学发光体系用于农产品农药残余检测的研究，福建省高校新世纪优秀人才支持计划（2016年度），主持。 (5)交联团聚态纳米金对鲁米诺化学发光体系的催化效应的研究，福建省高校杰出青年科研人才支持计划（2011年度），主持。 (6)纳米金催化的化学发光体系及其在免疫分析中的应用，福建省教育厅项目(编号：JA12237)，主持。 授权发明专利 (1)齐莹莹，修福荣.一种化学发光检测水样中银离子的方法.专利号：ZL201610633559.7 (2)齐莹莹，修福荣，一种利用化学发光试剂检测水样中苯胺的方法.专利号：ZL201510273698.9 (3)齐莹莹，修福荣.一种化学发光检测废水中啶虫脒的方法.专利号：ZL201510936545.8 (4)齐莹莹，修福荣.一种基于纳米金催化的化学发光分析检测铁蛋白的方法.专利号：ZL201410308668.2 (5)齐莹莹，修福荣.一种快速化学发光免疫分析检测人IgG.专利号：ZL201310547157.1

近期论文

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(1)YingyingQi*,JinxinMa,XiandongChen,Fu-RongXiu,YitingChen,YongweiLu,Practicalaptamer-basedassayofheavymetalmercuryionincontaminatedenvironmentalsamples:convenienceandsensitivity.AnalyticalandBioanalyticalChemistry.412(2020)439–448. (2)YingyingQi*,YitingChen,Fu-RongXiu,JinxiaoHou,Anaptamer-basedcolorimetricsensingofacetamipridinenvironmentalsamples:Convenience,sensitivityandpracticability.Sensors&Actuators:B.Chemical.304(2020)127359. (3)YingyingQi*,YitingChen,JiahuanHe,XiangGao.Highlysensitiveandsimplecolorimetricassayofhydrogenperoxideandglucoseinhumanserumviathesmartsynergisticcatalyticmechanism.SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy.234(2020)118233. (4)YingyingQi*,JiahuanHe,Fu-RongXiu,XuanYu,XiangGao,YifanLi,YongweiLu,ZhiqiSong.AconvenientchemiluminescencedetectionforbisphenolAinE-wastedismantlingsitebasedonsurfacechargechangeofcationicgoldnanoparticles.MicrochemicalJournal.147(2019)789–796. (5)YingyingQi*,JiahuanHe,Fu-RongXiu,XuanYu,YifanLi,YongweiLu,XiangGao,ZhiqiSong,BaoxinLi.Afacilechemiluminescencesensingforultrasensitivedetectionofheparinusingchargeeffectofpositively-chargedAuNPs.SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy.216(2019)310–318. (6)YingyingQi*,Fu-RongXiu,QingWeng,AnovelandconvenientchemiluminescencesensingofDNA:NanometerinterfaceeffectandDNAactionmechanism.Sensors&Actuators:B.Chemical.260(2018)303–310. (7)YingyingQi*,Fu-RongXiu,ShengquanWang,WenjieNie,Directmonitoringofenzymaticcleavageandfacilechemiluminescencestrategyforsensitivedetectionofnucleaseactivity.JournalofLuminescence196(2018)306–312. (8)YingyingQi*,Fu-RongXiu,GendingYu,LiliHuang,BaoxinLi,SimpleandrapidchemiluminescenceaptasensorforHg2+incontaminatedsamples:Anewsignalamplificationmechanism.BiosensorsandBioelectronics87(2017)439–446. (9)YingyingQi*,Fu-RongXiu,MinfengZheng,BaoxinLi,Asimpleandrapidchemiluminescenceaptasensorforacetamipridincontaminatedsamples:Sensitivity,selectivityandmechanism.BiosensorsandBioelectronics83(2016)243–249. (10)YingyingQi*,Fu-RongXiu,Sensitiveandrapidchemiluminescencedetectionofpropranololbasedoneffectofsurfacechargeofgoldnanoparticles.JournalofLuminescence171(2016)238–245. (11)YingyingQi,BaoxinLi*,FurongXiu,Effectofaggregatedsilvernanoparticlesonluminolchemiluminescencesystemanditsanalyticalapplication.SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy.128(2014)76–81. (12)YingyingQi,FurongXiu,BaoxinLi*.One-stephomogeneousnon-strippingchemiluminescencemetalimmunoassaybasedoncatalyticactivityofgoldnanoparticles.AnalyticalBiochemistry449(2014)1–8. (13)YingyingQi,BaoxinLi*，Enhancedeffectofaggregatedgoldnanoparticlesonluminolchemiluminescencesystemanditsanalyticalapplication.SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy.111(2013)1–6. (14)YingyingQi,BaoxinLi*,Asensitive,label-free,aptamer-basedbiosensorusingagoldnanoparticle-initiatedchemiluminescencesystem.Chemistry-AEuropeanJournal.17(2011)1642–1648. (15)YingyingQi,BaoxinLi*,ZhujunZhang.Label-freeandhomogeneousDNAhybridizationdetectionusinggoldnanoparticles-basedchemiluiminescencesystem.BiosensorsandBioelectronics.24(2009)3581–3586. (16)YingyingQi,LiLi,BaoxinLi*.Label-freedetectionofspecificDNAsequence-telomereusingunmodifiedgoldnanoparticlesascolorimetricprobes.SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy.74(2009)127–131. (17)YingyingQi,JiahuanHe,Fu-RongXiu,WenjieNie,MengjunChen.Partialoxidationtreatmentofwastepolyvinylchlorideincriticalwater:Preparationofbenzaldehyde/acetophenoneanddechlorination.JournalofCleanerProduction,2018,196:331–339. (18)YingyingQi,JiahuanHe,YifanLi,XuanYu,Fu-RongXiu,YuehuaDeng,XiangGao.AnoveltreatmentmethodofPVC-medicalwastebynear-criticalmethanol:Dechlorinationandadditivesrecovery.WasteManagement,2018,80:1–9. (19)Fu-RongXiu,YongweiLu,YingyingQi.DEHPdegradationanddechlorinationofpolyvinylchloridewasteinsubcriticalwaterwithalkaliandethanol:Acomparativestudy.Chemosphere,2020,249,126138. (20)Fu-RongXiu,XuanYu,YingyingQi.Ahigh-efficiencyandlow-temperaturesubcriticalwaterdechlorinationstrategyofpolyvinylchlorideusingcoalflyash(CFA)andcoalgangue(CG)asenhancers.JournalofCleanerProduction,2020,260,121085. (21)Fu-RongXiu,XuanYu,YingyingQi,YifanLi,YongweiLu,YixiaoWang,JiahuanHe,KeZhou,ZhiqiSong,XiangGao.Anovelmanagementstrategyforremovalanddegradationofpolybrominateddiphenylethers(PBDEs)inwasteprintedcircuitboards.WasteManagement,2019,100:191–198. (22)Fu-RongXiu,YifanLi,YingyingQi,XuanYu,JiahuanHe,YongweiLu,XiangGao,YuehuaDeng,ZhiqiSong.Anoveltreatmentofwasteprintedcircuitboardsbylow-temperaturenear-criticalaqueousammonia:Debrominationandpreparationofnitrogen-containingfinechemicals.WasteManagement,2019,84:355–363. (23)Fu-RongXiu,YingyingQi,ShengquanWang,WenjieNie,HuiweiWeng,MengjunChen.Applicationofcriticalwater-alcoholcompositemediumtotreatwasteprintedcircuitboards:Oilphaseproductscharacteristicanddebromination.JournalofHazardousMaterials,2018,344:333–342. (24)Fu-RongXiu,HuiweiWeng,YingyingQi,GendingYu,ZhigangZhang,Fu-ShenZhang,MengjunChen.Anovelrecoverymethodofcopperfromwasteprintedcircuitboardsbysupercriticalmethanolprocess:Preparationofultrafinecoppermaterials.WasteManagement,2017,60:643–651. (25)Fu-RongXiu,HuiweiWeng,YingyingQi.Anovelreutilizationmethodforwasteprintedcircuitboardsasflameretardantandsmokesuppressantforpoly(vinylchloride).JournalofHazardousMaterials,2016,315:102–109. (26)Fu-RongXiu,YingyingQi,Fu-ShenZhang.LeachingofAu,Ag,andPdfromwasteprintedcircuitboardsofmobilephonebyiodidelixiviantaftersupercriticalwaterpre-treatment.WasteManagement,2015,41:134–141. (27)Fu-RongXiu,YingyingQi,Fu-ShenZhang.Co-treatmentofwasteprintedcircuitboardsandpolyvinylchloridebysubcriticalwateroxidation:RemovalofbrominatedflameretardantsandrecoveryofCuandPb.ChemicalEngineeringJournal,2014,237:242–249. (28)Fu-RongXiu,YingyingQi,Fu-ShenZhang.Recoveryofmetalsfromwasteprintedcircuitboardsbysupercriticalwaterpre-treatmentcombinedwithacidleachingprocess.WasteManagement,2013,33:1251–1257