个人简况:
博士,副教授。主要研究方向:仪器分析、石油化学、有机地球化学。
办公地点:化工楼A座618
电话:010-89733738
Email:sq@cup.edu.cn
研究生招生及技术人员招聘:
欢迎将科学研究作为个人终生事业的年轻人加入本实验室。实验室具有世界先进的硬件条件和经难丰富的技术人员,尽力解决每一个人的生活困难,在和谐欢乐的集体中创建个人的科研人生。
教学:《文献检索与科技论文写作》
《仪器分析与实验》
《化学工程实验》
研究方向及主要成果:
主要研究方向为色谱、质谱分析和石油化学,即利用色谱、质谱技术研究石油、煤、生物质燃料等复杂体系的分子组成与化学转化。近年来致力于从分子层次揭示重质油化学组成,推动“石油组学”和“分子炼油”由概念走向实践。开发一系列复杂体系分子组成的分析方法,深入研究了原油、馏分油、渣油、沥青、二次加工产物及石油组分中杂原子化合物的组成与分布,对石油及石油产品的分子组成形成一些新认识。发现重质油分子质量远小于传统认识,分子间较强的相互作用力是重质油性质和反应性能的关键影响因素。深入研究了重质油及其组分中含硫、氮、氧杂原子化合物的分子组成,发现劣质重油中杂原子化合物含量很高,甚至超过烃类含量,存在大量含有两个或多个杂原子的化合物。杂原子化合物是影响油品的加工性能的重要因素,不同类型杂原子化合物在石油加工过程中的转化规律差异显著。
将高分辨质谱分析方法应用于石油有机地球化学,在分子水平上研究了高酸值原油的成因机理与成藏机制,解释生物降解过程中不同类型化合物的转化规律;探索深层油气藏高丰度含硫化合物的成因及次生演化机理。
建立一套煤焦油的分离、分析方法,系统研究了焦油分子组成。同时在生物质燃料的分子组成方面也开展了一些探索性工作。
近期工作还涉及现代沉积环境中的腐殖酸及环境水体中普遍存在天然可溶有机物的分析,认识炼油化工废水有机质分组成,并研究典型水处理工艺过程中有机质的分子转化规律。
近期开展的主要工作:
石油地球化学实验新技术、新方法
重质油分子组成及其定量分析方法
重质油中杂原子化合物热转化规律及数学模型
不同炼油装置污水中有机质分子组成及其在污水处理过程中的转化规律
气溶胶有机化合物组成分析及污染源识别
石油组成分析的分离技术与质谱方法学
发表论文:
2013年
1.Zhang,L.,Zhang,Y.,Zhao,S.,Xu,C.,Chung,K.,andShi,Q.*,CharacterizationofHeavyPetroleumFractionbyPositive-IonElectrosprayIonizationFT-ICRMassSpectrometryandCollisionInducedDissociation:BondDissociationBehaviorandAromaticRingArchitectureofBasicNitrogenCompounds.ScienceChinaChemistry,2013.56(7):p.874-882.
2.Yang,B.,Xu,C.,Zhao,S.,Hsu,C.,Chung,K.,andShi,Q.*,ThermalTransformationofAcidCompoundsinHighTanCrudeOil.ScienceChinaChemistry,2013.56(7):p.848-855.
3.Wang,S.,Yang,C.,Xu,C.,Zhao,S.,andShi,Q.*,SeparationandCharacterizationofPetroleumAsphalteneFractionsbyEsiFT-ICRMsandUv-VisSpectrometer.ScienceChinaChemistry,2013.56(7):p.856-862.
4.Wang,L.,He,C.,Liu,Y.,Zhao,S.,Zhang,Y.,Xu,C.,Chung,K.,andShi,Q.*,EffectsofExperimentalConditionsontheMolecularCompositionofMaltenesandAsphaltenesDerivedfromOilsandsBitumen:CharacterizedbyNegative-IonEsiFT-ICRMs.ScienceChinaChemistry,2013.56(7):p.863-873.
5.Hsu,C.,andShi,Q.,ProspectsforPetroleumMassSpectrometryandChromatography.ScienceChinaChemistry,2013.56(7):p.833-839.
6.Zhang,L.,Li,S.,Han,L.,Sun,X.,Xu,Z.,Shi,Q.,Xu,C.,andZhao,S.,CokingReactivityofLaboratory-ScaleUnitforTwoHeavyPetroleumandTheirSupercriticalFluidExtractionSubfractions.Industrial&EngineeringChemistryResearch,2013.52(16):p.5593-5600.
7.Zhao,X.,Liu,Y.,Xu,C.,Yan,Y.,Zhang,Y.,Zhang,Q.,Zhao,S.,Chung,K.,Gray,M.R.,andShi,Q.*,SeparationandCharacterizationofVanadylPorphyrinsinVenezuelaOrinocoHeavyCrudeOil.Energy&Fuels,2013.27(6):p.2874-2882.
8.Zhang,T.,Zhang,L.,Zhou,Y.,Wei,Q.,Chung,K.H.,Zhao,S.,Xu,C.,andShi,Q.,TransformationofNitrogenCompoundsinDeasphaltedOilHydrotreating:CharacterizedbyElectrosprayIonizationFourierTransform-IonCyclotronResonanceMassSpectrometry.Energy&Fuels,2013.27(6):p.2952-2959.
9.Zhang,L.,Shi,Q.*,Zhao,C.,Zhang,N.,Chung,K.H.,Xu,C.,andZhao,S.,HinderedStepwiseAggregationModelforMolecularWeightDeterminationofHeavyPetroleumFractionsbyVaporPressureOsmometry(Vpo).Energy&Fuels,2013.27(3):p.1331-1336.
10.Stevens,D.,Shi,Q.,andHsu,C.S.,NovelAnalyticalTechniqueforPetroleumBiomarkerAnalysis.Energy&Fuels,2013.27(1):p.167-171.
11.Pan,Y.,Liao,Y.,Shi,Q.,andHsu,C.S.,AcidicandNeutralPolarNsoCompoundsinHeavilyBiodegradedOilsCharacterizedbyNegative-IonEsiFT-ICRMs.Energy&Fuels,2013.27(6):p.2960-2973.
12.Shi,Q.*,Pan,N.,Long,H.,Cui,D.,Guo,X.,Long,Y.,Chung,K.H.,Zhao,S.,Xu,C.,andHsu,C.S.,CharacterizationofMiddle-TemperatureGasificationCoalTar.Part3:MolecularCompositionofAcidicCompounds.Energy&Fuels,2013.27(1):p.108-117.
2012年
13.Zhou,X.,Shi,Q.*,Zhang,Y.,Zhao,S.,Zhang,R.,Chung,K.H.,andXu,C.,AnalysisofSaturatedHydrocarbonsbyRedoxReactionwithNegative-IonElectrosprayFourierTransformIonCyclotronResonanceMassSpectrometry.AnalyticalChemistry,2012.84(7):p.3192-3199.
14.Zhao,Y.,Xu,C.*,Zhao,S.,andShi,Q.,PatternRecognitionTechnologyApplicationinIntelligentProcessingofHeavyOil.Energy&Fuels,2012.26(12):p.7251-7256.
15.Zhang,L.,Xu,Z.,Shi,Q.*,Sun,X.,Zhang,N.,Zhang,Y.,Chung,K.H.,Xu,C.,andZhao,S.,MolecularCharacterizationofPolarHeteroatomSpeciesinVenezuelaOrinocoPetroleumVacuumResidueandItsSupercriticalFluidExtractionSubfractions.Energy&Fuels,2012.26(9):p.5795-5803.
16.Zhang,H.,Zhang,Y.,Shi,Q.,Ren,S.,Yu,J.,Ji,F.,Luo,W.,andYang,M.,CharacterizationofLowMolecularWeightDissolvedNaturalOrganicMatterAlongtheTreatmentTraitofaWaterworksUsingFourierTransformIonCyclotronResonanceMassSpectrometry.WaterResearch,2012.46(16):p.5197-5204.
17.Zhang,H.,Zhang,Y.,Shi,Q.,Hu,J.,Chu,M.,Yu,J.,andYang,M.,StudyonTransformationofNaturalOrganicMatterinSourceWaterDuringChlorinationandItsChlorinatedProductsUsingUltrahighResolutionMassSpectrometry.EnvironmentalScience&Technology,2012.46(8):p.4396-4402.
18.Long,H.,Shi,Q.*,Pan,N.,Zhang,Y.,Cui,D.,Chung,K.H.,Zhao,S.,andXu,C.,CharacterizationofMiddle-TemperatureGasificationCoalTar.Part2:NeutralFractionbyExtrographyFollowedbyGasChromatography–MassSpectrometryandElectrosprayIonizationCoupledwithFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2012.26(6):p.3424-3431.
19.Pan,N.,Cui,D.,Li,R.,Shi,Q.*,Chung,K.H.,Long,H.,Li,Y.,Zhang,Y.,Zhao,S.,andXu,C.,CharacterizationofMiddle-TemperatureGasificationCoalTar.Part1:BulkPropertiesandMolecularCompositionsofDistillatesandBasicFractions.Energy&Fuels,2012.26(9):p.5719-5728.
20.Liu,Y.,Shi,Q.*,Zhang,Y.,He,Y.,Chung,K.H.,Zhao,S.,andXu,C.,CharacterizationofRedPinePyrolysisBio-OilbyGasChromatography–MassSpectrometryandNegative-IonElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2012.26(7):p.4532-4539.
21.Liao,Y.,Shi,Q.,Hsu,C.S.,Pan,Y.,andZhang,Y.,DistributionofAcidsandNitrogen-ContainingCompoundsinBiodegradedOilsoftheLiaoheBasinbyNegativeIonEsiFT-ICRMs.OrganicGeochemistry,2012.47(0):p.51-65.
22.Li,S.,Shi,Q.,Pang,X.,Zhang,B.,andZhang,H.,OriginoftheUnusuallyHighDibenzothiopheneOilsinTazhong-4OilfieldofTarimBasinandItsImplicationinDeepPetroleumExploration.OrganicGeochemistry,2012.48(0):p.56-80.
2011年
23.Zhu,X.,Shi,Q.*,Zhang,Y.,Pan,N.,Xu,C.,Chung,K.H.,andZhao,S.,CharacterizationofNitrogenCompoundsinCokerHeavyGasOilandItsSubfractionsbyLiquidChromatographicSeparationFollowedbyFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2011.25(1):p.281-287.
24.Zhang,Y.,Zhao,H.,Shi,Q.*,Chung,K.H.,Zhao,S.,andXu,C.,MolecularInvestigationofCrudeOilSludgefromanElectricDehydrator.Energy&Fuels,2011.25(7):p.3116-3124.
25.Zhang,Y.,Shi,Q.*,Li,A.,Chung,K.H.,Zhao,S.,andXu,C.,PartitioningofCrudeOilAcidicCompoundsintoSubfractionsbyExtrographyandIdentificationofIsoprenoidylPhenolsandTocopherols.Energy&Fuels,2011.25(11):p.5083-5089.
26.Liu,P.,Shi,Q.*,Pan,N.,Zhang,Y.,Chung,K.H.,Zhao,S.,andXu,C.,DistributionofSulfidesandThiophenicCompoundsinVgoSubfractions:CharacterizedbyPositive-IonElectrosprayFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2011.25(7):p.3014-3020.
27.Liu,D.,Fu,Y.,Deng,W.,Shi,Q.*,Ma,K.,Hou,T.,andWu,C.,FT-ICRMsAnalysisofNitrogen-ContainingCompoundsintheProductsofLiaoheAtmosphericResidueHydrocracking.Energy&Fuels,2011.26(1):p.624-628.
28.Li,Z.-k.,Wang,G.,Shi,Q.,Xu,C.-m.,andGao,J.-s.,RetardationEffectofBasicNitrogenCompoundsonHydrocarbonsCatalyticCrackinginCokerGasOilandTheirStructuralIdentification.Industrial&EngineeringChemistryResearch,2011.50(7):p.4123-4132.
29.Li,Z.-k.,Gao,J.-s.,Wang,G.,Shi,Q.,andXu,C.-m.,InfluenceofNonbasicNitrogenCompoundsandCondensedAromaticsonCokerGasOilCatalyticCrackingandTheirCharacterization.Industrial&EngineeringChemistryResearch,2011.50(15):p.9415-9424.
2010年
30.Zhang,Y.,Xu,C.,Shi,Q.*,Zhao,S.,Chung,K.H.,andHou,D.,TrackingNeutralNitrogenCompoundsinSubfractionsofCrudeOilObtainedbyLiquidChromatographySeparationUsingNegative-IonElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(12):p.6321-6326.
31.潘娜,史权*,徐春明,刘鹏,张亚和,何俊辉,and赵锁奇,直馏柴油中硫化物甲基锍盐合成及电喷雾-高分辨质谱分析.色谱,2010.38(3):p.413-416.
32.Liu,P.,Xu,C.,Shi,Q.*,Pan,N.,Zhang,Y.,Zhao,S.,andChung,K.H.,CharacterizationofSulfideCompoundsinPetroleum:SelectiveOxidationFollowedbyPositive-IonElectrosprayFourierTransformIonCyclotronResonanceMassSpectrometry.AnalyticalChemistry,2010.82(15):p.6601-6606.
33.Liu,P.,Shi,Q.*,Chung,K.H.,Zhang,Y.,Pan,N.,Zhao,S.,andXu,C.,MolecularCharacterizationofSulfurCompoundsinVenezuelaCrudeOilandItsSaraFractionsbyElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(9):p.5089-5096.
34.Li,M.,Cheng,D.,Pan,X.,Dou,L.,Hou,D.,Shi,Q.,Wen,Z.,Tang,Y.,Achal,S.,Milovic,M.,andTremblay,L.,CharacterizationofPetroleumAcidsUsingCombinedFt-Ir,FT-ICR–MsandGc–Ms:ImplicationsfortheOriginofHighAcidityOilsintheMugladBasin,Sudan.OrganicGeochemistry,2010.41(9):p.959-965.
35.Shi,Q.*,Hou,D.,Chung,K.H.,Xu,C.,Zhao,S.,andZhang,Y.,CharacterizationofHeteroatomCompoundsinaCrudeOilandItsSaturates,Aromatics,Resins,andAsphaltenes(Sara)andNon-BasicNitrogenFractionsAnalyzedbyNegative-IonElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(4):p.2545-2553.
36.Shi,Q.*,Zhao,S.,Xu,Z.,Chung,K.H.,Zhang,Y.,andXu,C.,DistributionofAcidsandNeutralNitrogenCompoundsinaChineseCrudeOilandItsFractions:CharacterizedbyNegative-IonElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(7):p.4005-4011.
37.Shi,Q.*,Pan,N.,Liu,P.,Chung,K.H.,Zhao,S.,Zhang,Y.,andXu,C.,CharacterizationofSulfurCompoundsinOilsandsBitumenbyMethylationFollowedbyPositive-IonElectrosprayIonizationandFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(5):p.3014-3019.
38.Shi,Q.*,Xu,C.,Zhao,S.,Chung,K.H.,Zhang,Y.,andGao,W.,CharacterizationofBasicNitrogenSpeciesinCokerGasOilsbyPositive-IonElectrosprayIonizationFourierTransformIonCyclotronResonanceMassSpectrometry.Energy&Fuels,2010.24(1):p.563-569.
39.Shi,Q.*,Yan,Y.,Wu,X.,Li,S.,Chung,K.H.,Zhao,S.,andXu,C.,IdentificationofDihydroxyAromaticCompoundsinaLow-TemperaturePyrolysisCoalTarbyGasChromatography-MassSpectrometry(Gc-Ms)andFourierTransformIonCyclotronResonanceMassSpectrometry(FT-ICRMs).Energy&Fuels,2010.24(10):p.5533-5538.
2009年
40.Shi,Q.*,Xu,C.,Zhao,S.,andChung,K.H.,CharacterizationofHeteroatomsinResidueFluidCatalyticCracking(Rfcc)DieselbyGasChromatographyandMassSpectrometry.Energy&Fuels,2009.23(12):p.6062-6069.
2008年
41.Shi,Q.*,Wang,T.,Zhong,N.,Zhang,Z.,andZhang,Y.,IdentificationofAcephenanthryleneandAceanthryleneinAerosolandItsEnvironmentalImplication.ChineseScienceBulletin,2008.53(6):p.890-894.
