个人简历
主要科研项目/Mainresearchprojects:1.国家自然科学基金面上项目,持久性有机污染物在温室要素中的迁移转化,主持2.国家自然科学基金青年科学基金项目,有机磷农药对映体选择性毒性效应的调控,主持3.浙江省自然科学基金项目,分子构型对植物生长调节剂与植物互作关系的影响,主持4.环境基准与风险评估国家重点实验室开放课题,邻苯二甲酸酯在土壤-蔬菜-大气体系中的分布研究,主持5.国家973计划,农药在设施作物土壤中的代谢、积累及其调控,子课题负责人6.国家自然科学基金面上项目,丙酸类除草剂的毒理与植物解毒对映体选择性,参加7.国家自然科学基金青年科学基金项目,手性纯农药对映体标样的制备研究,参加8.国家自然科学基金面上项目,土壤天然金属氧化物对17b-雌二醇的氧化作用,参加9.国家自然科学基金面上项目,手性除草剂除草剂对映体活性筛选与分子毒理机制研究,参加10.国家自然科学基金面上项目,手性有机磷农药对映体得靶标生物药效、环境安全性及其手性转换研究,参加11.教育部(博士点基金项目),室内环境中氯代阻燃剂得克隆的污染特征和迁移过程,参加12.教育部“高等学校科技创新工程重大项目培育资金”项目,饮用水中藻毒素和内分泌干扰物的组合深度处理技术研究,参加13.浙江省自然科学基金重点项目,浙江省典型持久有机污染物调查及其生态风险的研究,参加14.浙江省自然科学基金,室内灰尘和空气中多溴联苯醚的污染特征及迁移规律研究,参加15.浙江省自然科学基金项目,光催化活性纳米材料(TiO2)对斑马鱼的生物毒性影响,参加16.浙江省自然科学基金项目,手性POPs对乳腺癌影响的对映体选择性及其分子机理,参加17.浙江省科学技术厅重大项目,大、中型污水处理厂配套药剂中的集成技术及工程示范,参加18.浙江省科学技术厅公益项目,钱塘江源头水系(衢州段)持久性有毒物质的调查及其生态风险评估,参加19.浙江省环境保护厅科技项目,钱塘江河流环境介质中得克隆的残留及生物累积研究,参加教学项目:1.浙江省高等教育课堂教学改革研究项目“合作式教学模式在《环境化学》课程中的实践研究”2.浙江工业大学通识教育核心课程“中外环境保护比较”建设项目3.浙江工业大学课堂教学方法改革专项项目“合作性教学模式在专业基础课程的实践研究”4.浙江工业大学通识教育核心课程“环境保护与生态文明”建设项目5.浙江工业大学教学改革项目“以专业型学生社团为载体的实践教学模式探索与构建”政府委托项目1.浙江省环保厅,浙江省持久性有机污染物十二五污染防治规划,负责人2.义乌市环保局,义乌市危险废物污染评估与管理规划,负责人主要科研成果:科研奖励:1.浙江省科学技术奖.典型工业污水处理专用药剂的研制、集成技术及其产业化.二等奖.20092.浙江省高等学校科研成果奖.手性农药对水稻生长影响的对映体选择性.一等奖.2012发明专利:1.张安平,孙建强.用于测定大气半挥发性有机污染物的定向采样器,发明专利.20152.张安平,孙建强.一种多效唑环糊精包结物及其制备方法,发明专利.20143.张安平,林春绵,胡晓燕,刘维屏,高伟亮,唐盛.一种乙酸萘酯酶的净化方法,发明专利.20114.张安平,童少平,刘维屏,卢建杭,于梅.一种含氟废水处理用混凝剂及其应用工艺,发明专利.20115.刘维屏,张安平,童少平,朱显跃,卢建杭.一种焦化废水处理用混凝剂及其应用工艺,发明专利.20116.刘维屏,朱显跃,童少平,于梅,张安平.一种适用于低温条件下废水处理的方法,发明专利.20117.陈金媛,许炉生,钱勇兴,张安平.一种加压型光催化反应系统,发明专利.20118.张安平,叶璟,刘维屏,严航贞,蒋凌峰,聂利宾.一种用于除草剂高通量的96孔板筛选方法,发明专利.20099.张安平,严航贞,叶璟,刘维屏,赵美蓉,张宏华,苗优娜.一种乙酸萘酯酶的提取方法,发明专利.200910.刘维屏,周珊珊,张安平.氯胺磷与环糊精或环糊精衍生物形成的包结物及其制备方法,发明专利.2009荣誉:2012年浙江省新世纪151人才工程第二层次培养人员2009年浙江省新世纪151人才工程第三层次培养人员2008年浙江省环境科学与工程重中之重学科学术骨干浙江工业大学校级优秀班主任,2008,2015
研究领域
研究领域(方向):植物修复土壤污染植物防治大气污染
近期论文
代表性论文/Representativepapers:[1]DistributionandUptakePathwaysofOrganochlorinePesticidesinGreenhouseandConventionalVegetablesZhangAnping,LuoWenxiu,SunJianqiang,XiaoHang,LiuWeipingScienceoftheTotalEnvironment,2015,505,1142-1147.[2]Enantioselectiveinteractionofacidα-NaphthylacetateesterasewithchiralorganophosphorusinsecticidesZhangAnping,Sunjianqiang,LinChunmian,HuXiaoyan,Liu,Weiping*JournalofAgriculturalandFoodChemistry,2014,62(7),1477-1481.[3]OccurrenceofphthalateestersinsedimentsinQiantangRiver,ChinaandinferencewithurbanizationandriverflowregimeSunJianqiang,HuangJing,ZhangAnping*,LiuWeiping,ChengWenwei.JournalofHazardousMaterials.2013,248,142–149.[4]ProbingthechiralseparationmechanismandtheabsoluteconfigurationofMalathion,MalaoxonandIsomalathionenantiomersbychiralhighperformanceliquidchromatographycoupledwithchiraldetector-bindingenergycomputationsZhangAnping,LaiWenfeng,SunJianqiang*,HuGuixiang,LiuWeiping.JournalofChromatographyA.2013,1281,26-31.[5]LevelsanddistributionofDechloranePlusandrelatedcompoundsinsurficialsedimentsoftheQiantangRiverineasternChina:TheresultsofurbanizationandtideSunJianqiang,ZhangAnping*,FangLi,WangJunliang,LiuWeiping.ScienceoftheTotalEnvironment,2013,443,194–199.[6]RisksfromsedimentscontaminatedwithorganochlorinepesticidesinHangzhou,ChinaWuChengwang,ZhangAnping,LiuWeiping*.Chemosphere.2013,90(9),2341-2346.[7]Dissipationandenantioselectivedegradationofplantgrowthretardantspaclobutrazolanduniconazoleinopenfield,greenhouse,andlaboratorysoilsWuChengwang,SunJianqiang,ZhangAnping*,LiuWeiping.EnvironmentalScience&Technology,2013,47(2),843–849.[8]Enantiomericseparationsofchiralpolychlorinatedbiphenylsonthreepolysaccharide-typechiralstationaryphasesbysupercriticalfluidchromatographyZhangAnping,GaoWeiliang,MaBinbin,JinLixia,LinChunmian*.AnalyticalandBioanalyticalChemistry,2012,403(9),2665-2672.[9]Determinationoforganophosphoruspesticideresiduesinvegetablesbyanenzymeinhibitionmethodusingalpha-naphthylacetateesteraseextractedfromwheatflourWangJunliang,XiaQing,ZhangAnping*,HuXiaoyan,LinChunmian..JournalofZhejiangUniversity,ScienceB.2012,13(4),267-273.[10]Enantiomericresolutionandgrowth-retardantactivityinricesedlingsofuniconazoleSunJianqiang,ZhangAnping,ZhangJing,XieXuemei,LiuWeiping*.JournalofAgriculturalandFoodChemistry,2012,60(1),160-164.[11]ConcentrationsofDDTsandenantiomericfractionsofchiralDDTsinagriculturalsoilsfromZhejiangProvince,China,andCorrelationswithtotalorganiccarbonandpHZhangAnping,ChenZhouyin,LutzAhrens,LiuWeiping*,LiYi-fan.JournalofAgriculturalandFoodChemistry,2012,60(34),8294-8301.[12]EnzymaticdecolorizationofOrangeII:OptimizationbyresponsesurfacemethodologyandpathwayZhang,Anping,FangLi,WangJunliang,LiuWeiping*.EnvironmentalProgress&SustainableEnergy.2012,32(2),294-301.[13]ResiduesofcurrentlyandneverusedorganochlorinepesticidesinagriculturalsoilsfromZhejiangProvince,ChinaZhangAnping,FangLi,WangJunliang*,LiuWeiping,YuanHejin,JantunenLiisa,LiYi-Fan.JournalofAgriculturalandFoodChemistry,2012,60(12),2982-2988.[14]SpatialdistributionofhexachlorocyclohexanesinagriculturalsoilsinZhejiangProvince,China,andcorrelationswithelevationandtemperatureZhangAnping,LiuWeiping*,YuanHejin,ZhouShanshan,SuYushan,LiYi-Fan.EnvironmentalScience&Technology,2011,45(15),6303-6308.[15]EnantioselectiveSeparationandphytotoxicityonriceseedlingsofpaclobutrazolZhangAnping,XieXuemei,LiuWeiping*.JournalofAgriculturalandFoodChemistry,2011,59(8),4300-4305.[16]Stereoselectivetoxicityofmalathionanditsmetabolites,malaoxonandisomalathionZhangAnping,XieXuemei,YeJing,LinChunmian*,HuXiaoyan.EnvironmentalChemistryLetters,2011,9(3),369-373.[17]DeterminationofenantiomerfractionofselectedorganochlorinepesticidesinsoilbychiralgaschromatographyYuanHeJin,ZhangAnping.ChineseJournalofAnalyticalChemistry,2009,37(4),630-630.[18]EnantioselectivephytotoxicityoftheherbicideimazethapyrinriceQianHaifeng,HuHaijia,MaoYuanyuan,MaJian,ZhangAnping,LiuWeiping,FuZhengwei.Chemosphere,2009,76(7),885-892.[19]EnantioselectiveeffectsofchiralherbicidediclofopacidonriceXiushui63seedlingsYeJing,ZhangQiong,ZhangAnping,WenYuezhong,LiuWeiping.BulletinofEnvironmentalContaminationandToxicology,2009,83(1),85-91.[20]Inclusioneffectofalpha-cyclodextrinonchemicaldegradationofmalathioninwaterZhangAnping,LiuWeiping.ArchivesofEnvironmentalContaminationandToxicology,2008,54(3),355-362.[21]Preparation,stabilization,andbioefficacyofbeta-cyclodextrininclusioncompoundsofchloramidophosZhouShanshan,WangLumei,ZhangAnping,LinKunde,LiuWeiping.JournalofAgriculturalandFoodChemistry,2008,56(8),2708-2713.[22]Separationandaquatictoxicityofenantiomersof1-(substitutedphenoxyacetoxy)alkylphosphonateherbicidesLiLing,ZhouShanshan,ZhaoMeirong,ZhangAnping,PengHao,TanXiaosong,LinChunmian,HeHongwu.Chirality,2008,20(2),130-138.[23]InfluenceoftoxicityanddissipationofracemicfenoxapropanditsR-enantiomerinScenedesmusobliquussuspensionbycyclodextrinsZhangAnping,XuChao,LiuWeiping.JournalofEnvironmentalScienceandHealthPartB-PesticidesFoodContaminantsandAgriculturalWastes,2008,43(3),231-236.[24]BindingofphenthoatetobovineserumalbuminandreducedinhibitiononacetylcholinesteraseXuChao,ZhangAnping,LiuWeiping.PesticideBiochemistryandPhysiology,2007,88(2),176-180.[25]EffectsofcyclodextrinsonhydrolysisofmalathionZhangAnping,LuoFan,ChenShengwen,LiuWeiping.JournalofEnvironmentalScience-China,2006,18(3),572-576.[26]Studyonsupramolecularcomplexesofcyclodextrinsandfenoxaprop-p-ethylbyUVspectraZhangAnping,LuoFan,LiuWeiping.SpectroscopyandSpectralAnalysis,2006,26(12),2298-2301.[27]CharacterizationofnapropamideenantiomersbyCDanddeterminationoftheenantiomericratiosinwaterChenShengwen,CaiXiyun,XiMeng,ZhangAnping,LiuWeiping.SpectroscopyandSpectralAnalysis,2006,26(9),1649-1652.[28]Environmentalsignificanceofthediclofop-methylandcyclodextrininclusioncomplexesCaiXiyun,ZhangAnping,LiuWeiping.JournalofEnvironmentalScienceandHealthPartB-PesticidesFoodContaminantsandAgriculturalWastes,2006,41(7),1115-1129.[29]Characterizationofinclusioncomplexationbetweenfenoxaprop-p-ethylandcyclodextrinZhangAnping,LiuWeiping*,WangLumei,WenYuezhong.JournalofAgriculturalandFoodChemistry,2005,53(18),7193-7197.社会兼职:中国化学会会员,美国化学会会员。
