2009年第38卷第5期石油化丁PETR0CHEMICALTECHNOLOGY·55l·7‘,_'.、0;‘’!:.~--e,石油化-I-新材料、,一^,一负载金纳米粒子的表面凹凸型聚合物微球的制备及其催化性能熊万斌,周巧燕,李培培,倪忠斌,刘晓亚,陈明清(江南人学化学与材料i-.程学院,江苏无锡214122)摘要通过链转移f『f{f堪聚干ff端坫换反f、Z合成r聚N一异l^J魑烯酰胺(PNIPAAm)夫分子,他Jl^』烯腑和{笨乙烯进"几分散』0聚,川得J丧j彳『lJ肜念的PNIPAAm接枝聚Il尺j烯/聚拉乙烯聚合物(PNAS)微球以金酸为Au溉l,分}jlj,I50℃进ir孵热还和窜濉紫外光还原.将jPNIPAAm酰胺雇f的Au“原还原成Au纳米粒,绒谯PNAS微球的表果川透射}Uf{【微镜、xn1『线衍射、似f‘变换红外光lf{1紫外一,叮光吸收光‘法埘PNAS微球负载Au纳米粒于(Au—PNAS)进行』表征丧结果,Au纳水』二较均匀地负载:PNAS微球表【;采川醇热还原法,{c(Au“)=00025mmol/LIhJ仃70cA-的Au纳、水粒了的粒侄小}10nm;采『}j紫外光还原法得到的Au纳米粒子的棚刈较夫,Au纳水粒t脱多种肜态;Au—PNAS微球jf良好的化活,30rain内叮基本f将对硝苯酚催化还原为对铤堪苯酚关键词聚Ⅳ一肄『坫婀烯髋胺;聚丙烯情;聚苯乙烯;聚合物,做球;金纳米粒于;对硝苯酚;刈氩苯盼;催化利文章编号一1ooo一8144(2009)05—0551—06:中图分类号TQ325.2文献标识码APreparationandCatalyticPropertyofAuNanoparticleDispersedPolymericMicrosphereswithSpecialMorphologyXiongWanbin,ZhouQiaoyan,LiPeipei,NiZhongbin,LiuXiaoya,ChenMingqing(SchoolofChemicalandMaterialEngineering.JiangnanUniversity,WuxiJiangsu214122.China)[AbstractPoly(N—isopropylacrylamide)(PNIPAAm)macromonomerwithavinylendgroupwasobtainedbychaintransferringradicalpolymerizationandendcappingreaction.PNIPAAm—polyacrylonitrile—polystyrene(PNAS)trimermicrosphereswithembossedmorphologywerepreparedbydispersioncopolymerizationwithPNIPAAmasstabilizer.DiametersofPNASmicrosphereswereinrangeofsub—micron.AunanoparticlesweredispersedevenlyontosurfacesofPNASmicrospheresbyinsitureductionofAu“watersolutionat50℃usingethanolasreducingagentorbyUVirradiationreductionatroomtemperature.ThepropertiesofPNASmicrosphereswithdispersedAunanoparticles(Au—PNAS)werestudiedbymeansofTEM,XRD,FrIRandUV—Visspectrometry.SizeofAunanoparticlescouldbeadjustedbychangingAu“concentrationofstartingsolution.Byusing0.0025mmol/LHAuC14solution,thediameterof70%ofobtainedAunanoparticlesweresmallerthan10nm.ButbyUVirradiationreduction,Aunanoparticleswithlargerdiameterswereobtainedandshoweddifferentmorphology.4一Nitrophenolbasicallyconvertedto4-aminophenolinwatermediuminpresenceofAu—PNAScatalystandsodiumborohydrideatambienttemperatureafterreaction30min.[Keywords]poly(N-isopropylacrylamide);polyacrylonitrile;polystyrene;polymericmicrosphere;goldnanoparticle;4-nitrophenol;4一aminophenol;catalystAu纳米粒子除其有量子尺寸效应、表面效应和量子隧道效应外,还表现出独特的电学、光学和催化性能,并可通过£1组装形成新的纳米结构体,广泛应Jfj于传感器、基闪测序和化学催化等领域。Au纳米粒子的制备可采用常规的浸渍法,但在还原过程t{l易造成Au纳米粒子的聚集,因而近年逐步发展到选各种金褐氧化物~、分子筛、活性收稿日期2008—12—08;修改稿日期j2009—02~01作者简介熊万斌(197I一),9j,湖北甫天门ff人,博{乍联系人:陈ljJ】清,ru0510—89880678,电邮mqchen@jiangnan.edu.ell:[基金项目同家自然科学基金项tl(20671043);江苏离等学校科技创新团队资助项【j(苏教科[2007:5)·552-石油化工PETROCHEMICALTECHN0L0GY2009年第38卷炭、纳米管和电极m等材料负载Au纳米粒子,选择不同类型的聚合物作为载体,利用所带功能性基团的保护作用,可使金属纳米粒子具有长期稳定性¨。在...
