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1、微波法合成稀土氟化物纳米材料18 篇文献文摘目录1 侯远,董相廷,王进贤,刘桂霞稀土氟化物微纳米材料制备方法的研究进展中国稀土学报, 2010, (05 ):515 524中文摘要:稀土氟化物纳米材料由于其特殊的光、电、磁性质,在光学器件、显示、生物标记、光学晶体等领域有着广泛的应用,已成为材料科学领域的研究热点之一。目前研究者已用沉淀法、微乳液法、水热与溶剂热法、溶胶-凝胶法、微波法、超声波法、前驱体热解法、静电纺丝法等成功地制备出了纳米颗粒、纳米线、纳米膜、多面体纳米晶、复合结构纳米晶、核壳结构纳米材料等稀土氟化物纳米材料。本文总结了上述几种制备方法的研究进展,讨论了其优缺点,并结合课题组
2、在稀土氟化物纳米材料制备方面的工作,对纳米稀土氟化物制备方法的发展方向做了展望。Rare earth fluorides nanometerials became one of the popular research subjects in recent years because they were extensively used in the fields of optical devices,display,biolabeling,opticalcrystals,etc.owingtotheiruniqueoptical,electricalandmagneticproperties
3、.Recently,manymethods,suchasprecipitation,microemulsion,hydrothermalandsolvothermal,sol-gel,microwave,ultrasonic,precursorsthermaldecomposition,andelectrospinningtechniqueweresuccessfullyemployed to fabricate rare earth fluorides na2 闫景辉, 张鸣, 连洪州, 叶泽人, 石春山 .微乳液体系相图的研究及其在纳米氟化物制备中的应用 .高等学校化学学报 ,2 0 0
4、5 ,(06):10061009中文摘要:绘制了十六烷基三甲基溴化铵(CTAB)/正丁醇(n2C4H9OH)/正辛烷(n2C8H18)/水 或 NH4F 溶液、或 Ba (NO3) 2 溶液、或 KNO32M g (NO3) 2 混合溶液四组分微乳体系的拟三元相图. 观察了电导率随水(或盐溶液) 含量变化的规律, 很好地印证了微乳液体系相行为. 选取相图中微乳区点作为最佳条件, 制备了 KM gF3 纳米粒子.英文摘要:Pseudo-ternary phase diagrams in quaternary microemulsion systems of cetyltrimethyl ammo
5、nium bromide(CTAB), n-butanol, n-octane and wateror NH_4F solution, or Ba(NO_3)_2 solution, KNO_3-Mg(NO_3)_2 mixture solution are presented. Variation of the electrical conductivity with the change of water content(or solution) was observed, which supported the phase behavior of microemulsion system
6、s. KMgF_3 nanoparticles were prepared with the optimal parameter of phase diagrams of microemulsions systems.3 马琳, 陈卫祥,李辉,徐铸德 .微波合成 PrF3 空心纳米粒子和氢氧化镨纳米棒.浙江大学学报( 工学版),第 42 卷第 10 期 2008-10-036 18331837中文摘要:用快速高效的微波辐射加热方法成功地合成了 PrF3 空心纳米粒子和氢氧化镨纳米棒,并以所制备的氢氧化镨纳米棒为前驱体通过热处理得到了氧化镨的纳米棒.对产物进行了 X-射线衍射(XRD)、透射电镜
7、(TEM)和电子能谱(EDX)的表征.结果表明,微波合成的 PrF3 为球形形貌的中空纳米粒子,并具有均匀的粒径大小.微波合成的氢氧化镨纳米棒具有高的结晶度和纯度.实验结果表明,较长的微波加热时间和较高的碱浓度有利于结晶度高的氢氧化镨纳米棒的形成.初步讨论了微波条件下合成氟化镨中空纳米粒子和氢氧化镨纳米棒的形成机理.PrF3 hollow nanoparticles and Pr(OH)3 nanorods were synthesized via a rapid microwave irradiation method and Pr6O11 nanorods were obtained by
8、 calcination of the as-prepared Pr(OH)3 nanorods as precursors.The products were characterized by X-ray powder diffraction(XRD),transmission electron microscope(TEM) and energy dispersive X-ray analysis(EDX).Results showed that the synthesized PrF3 nanoparticles by microwave irradiation were spheric
9、al-like hollow with uniform particle size.The synthesized Pr(OH)3 nanor.4 张秀凤,涂华民,张迈生,林木良.纳米氟化铈()的微波固相氧化还原合成法。材料导报 , 2003(01):78 80中文摘要:首次在微波场作用下,采用直接法和间接法快速合成了氟化铈(),通过XRD、TG-DTG 及场发射扫描电镜(FE-SEM)等方法对样品的组成、结构进行了分析表征,并讨论了两种合成方法以及微波合成条件对产物的影响。研究表明:采用本方法合成的 CeF_3,晶型为类球形,平均粒径约为 100nm。Nanostructure cenum(
10、) fluoride was synthesized by two ways in microwave radiation field.The samples were characterized by XRD,TG-DTA and FE-SEM.The effect of these two methods and reaction conditions in microwave radiation field were discussed.The results show that nanostructure cerium fluoride with a spherical morphol
11、ogy at a crystalline particle diameter of about 100nm was obtained.5王亚军; 刘前; 索全伶; 郝东升; 郭锋;稀土氟化物的沉淀方法及组成研究稀土, 2000 年 01 期 16-20中文摘要:本文研究了湿法制备稀土氟化物的工艺过程,考察了 HF 用量、稀土浓度、反应温度和添加大分子助沉剂对稀土收率和沉淀速率的影响。报道了一种快速沉淀稀土氟化物的新方法,并用透射电镜、X 射线衍射、X 射线荧光光谱和差热-热重等分析方法测定了氟化物的形貌、粒径和组成。The technological processes of rare ear
12、th fluoride prepared by hydrometallurgical methods have been studied.The effect of the fluohydric acid amount and rare earth concentration,reaction temperature and macromolecular precipitating aid agent on the yield of rare earth and precipitation rate was discussed.A new method of fast precipitatin
13、g rare earth fluoride was reported.The component,appearance and grain size of the product were determined by TEM,XRD,X ray fluorescence,DTA and TG6 宋丽红.稀土掺杂氟化物及纳米复合发光材料的制备与光谱性质.长春理工大学 2007-06-06中文摘要:本文采用十六烷基三甲基溴化铵正丁醇正辛烷水组成的微乳液体系制备了 YF_3:Eu、YF_3:Tb、YF_3:Ce、YF_3:Er 等一系列纳米微粒。运用 XRD 确认了制备所得样品为 YF3 斜方晶系;
14、用 ESEM 观察 YF_3:Eu、YF_3:Tb、YF_3:Ce 和 YF_3:Er 纳米粒子,粒径大约为 1340nm。 制备所得的 YF_3:Eu 纳米粒子的尖峰发射位于 592nm,归属于 Eu(3+)的5D_07F_1 跃迁;YF_3;Tb 尖峰发射位于 544nm,属于 Tb(3+)(5D_47F_5)的特征发射,是5D_4 能级的绿色跃迁发射;而 YF_3:Ce 纳米粒子宽带发射峰的最大值位于 340nm 处,属于近紫外发光;YF_3:Er 红外荧光光谱最大发射位于1547nm 处,发生了红移现象,上转换发射为红光和绿光。 对 YF_3:EuPMMA 复合膜、YF_3:TbPMM
15、A 复合膜的制备及光谱性质进行了初步研究;荧光光谱研究表明,复合膜的激发和发射光谱与 YF_3:Eu、YF_3:Tb 纳米粒子相比,主要发射峰的位置没有发生变化,强度大大减弱。In the dissertation, nanoparticles of YF_3:Eu, YF_3:Tb, YF_3:Ce and YF_3:Er were prepared from the quaternary microemulsions of CTAB, n-butanol, n-octance and water based .The X-ray diffraction (XRD) patterns wer
16、e indexed to a pure YF_3 orthorhombic phase. Envrionment scanning electron microscopy (ESEM) images showed spherical YF_3:Eu,YF_3:Tb,YF_3:Ce and YF_3:Er nanoparticles which were about 13-40 nm in diameter. The emission of YF_3: Eu nanoparticles peaked at 592 nm attributed to Eu(3+) 5D_07F_1 tr.7 马琳 .微波和水热合成稀土化合物、二硫化钼纳米材料及表征浙江大学 2008-10-07中文摘要:无机纳米材料的形貌、尺寸及其微观结构对其物理和化学等性质和应用具有重要的影响。具有特定形貌和微观结构的无机纳米材料(如:纳米线、纳米棒、中空纳米结构、纳米微米球等)的合成及其性能
