磷灰石结构荧光粉Ba10(PO4)6F2:Ce3+,Tb3+的合成、发光和能量传递

采用高温固相法合成了系列Ce~(3+)和Ce~(3+)/Tb~(3+)激活的具有磷灰石结构荧光粉Ba_(10)(PO_4)_6F_2。用X射线衍射(XRD)、扫描电镜(SEM)、激发和发射(PLE和PL)光谱对样品进行了表征分析。研究结果表明:所合成的荧光粉Ba_(10)(PO_4)_6F_2∶Ce~(3+),Tb~(3+)具有氟磷灰石结构,样品微观呈现不规则形貌。荧光粉Ba10-x(PO4)6F2∶x Ce~(3+)的相对发射强度随着x增加而增强,当x=0.09时,荧光强度达到最大。荧光粉Ba_(10)(PO_4)_6F_2∶Ce~(3+),Tb~(3+)的激发光谱为240～330 nm的宽带,发射光谱呈现出Ce~(3+)的5d→4f跃迁紫外光(335和358 nm)发射和Tb~(3+)的4f→4f跃迁绿光(542 nm)发射。光谱特性表明,发光过程中存在Ce~(3+)→Tb~(3+)能量传递,能量传递效率可以达到60%。计算Ce~(3+)和Tb~(3+)的临界距离为0.79 nm,能量传递机理是偶极-偶极交互作用。此外,详细论述了Ce~(3+)和Tb~(3+)之间的能量传递和发光的过程。通过调节Tb~(3+)的掺杂浓度,对荧光粉发光色坐标与Tb~(3+)的掺杂浓度之间的关系也进行了研究,随着Tb~(3+)的掺杂量从0增加0.52,荧光粉Ba_(10)(PO_4)_6F_2∶Ce~(3+),Tb~(3+)的发射光谱色坐标可以从(0.149 4,0.045 1)蓝色区变化到(0.280 1,0.585 3)绿色区。     

Ca9Y(PO4)7:Ce3+,Tb3+纳米荧光粉的制备及发光性能

采用水热法制备出Ca_9Y(PO4)7∶Ce~(3+),Tb~(3+)纳米荧光粉,通过XRD、SEM和荧光光谱等对样品进行了分析,研究在Ca_9Y(PO4)7基质中引入Ce~(3+),Tb~(3+)离子对发光性能的影响规律。研究发现因Tb~(3+)离子自身能量交叉驰豫的存在,使得单掺Tb~(3+)时,通过调节Tb~(3+)离子的浓度可以实现对发光颜色的控制。同时研究了Ce~(3+)-Tb~(3+)之间的能量传递为电多极相互作用的偶极-四极机制,Ce~(3+)-Tb~(3+)之间最大的能量传递效率为55.6%。Ca_9Y(PO4)7∶Ce~(3+),Tb~(3+)的发光颜色可以通过激活离子之间的能量传递和共发射得到可控调节。SEM分析表明荧光粉颗粒尺寸在100 nm左右,分散性好。     

GdB_3O_6-CeB_3O_6二元体系中Tb~(3+)的光致发光

研究了组成对Tb~(3+)激活的GdB_3O_6-CeB_3O_6二元体系的发光亮度、发光光谱和激发光谱的影响。结果表明:在紫外光激发下,Ce~(3+)和Gd~(3+)对Tb~(3+)的发光均有敏化作用,特别是Ce~(3+)对Tb~(3+)的发光敏化效果十分显著;Gd~(3+)在该体系中还能起能量传递的中间体作用;Ce~(3+)→Tb~(3+)能量传递的机理为电多极相互作用的共振传递。     

卤磷酸锶基质中Ce^3＋的发光性质

通过对发射光谱、激发光谱和漫反射光谱的研究,发现Ce~(3+)在Sr_5(PO_4)_3Cl基质中,形成两个发光中心。研究了Sr_5(PO_4)_3X(X=F,Cl、Br)基质中,Ce~(3+)的发光性质,测定了Sr_5(PO_4)_3Br的晶体结构,确定了二元卤磷酸锶体系固相线下的相关系,并研究了卤离子组成改变对Ce~(3+)发光性质的影响。     

Er~(3+)和Ce~(3+)/Ce~(4+)掺杂β-BaB_2O_4纳米棒的制备、结构与发光性质

以Ba(NO_3)_2、NaBH_4、Er_2O_3和CeO_2为原料,在十六烷基三甲基溴化铵(CTAB)表面活性剂辅助下,采用水热法制备了β-BaB_2O_4(β-BBO)纳米棒,稀土离子Er~(3+)单掺杂的β-BBO(β-BBO:Er~(3+))及Er~(3+)和Ce~(3+)/Ce~(4+)共掺杂的β-BBO(β-BBO:Er(3+)/Ce~(3+)/Ce~(4+))纳米棒.通过X射线粉末衍射(XRD)、傅里叶变换红外(FTIR)光谱、拉曼光谱、扫描电子显微镜(SEM)、透射电子显微镜(TEM)、X射线光电子能谱(XPS)和光致发光(PL)光谱分别对样品的物相、结构、形貌、成分及光致发光性质进行了表征.研究结果表明:微量稀土离子掺杂并不改变β-BBO的结构,制得的纳米棒尺寸均匀,长度在200-500 nm之间,直径在10-20 nm之间;β-BBO:Er~(3+)和β-BBO:Er~(3+)/Ce~(3+)Ce~(4+)纳米棒在400nm光激发下,在可见光范围内都观察到中心波长为515和542 nm的绿光.对发光机理的初步研究表明:发光分别对应于Er~(3+)的~2H_(11/2)→~4I_(15/2),~4S_(3/2)→~4I_(15/2)跃迁,铈离子以Ce~(3+)和Ce~(4+)两种形式存在于体系中,Ce~(3+)对Er~(3+)起敏化作用,可以显著增强β-BBO:Er~(3+)/Ce~(3+)/Ce~(4+)纳米棒的发光强度,存在Ce~(3+)→Er~(3+)的能量传递过程.     

Ca3La3（BO3）5中Ce^3＋,Pb^2＋,Mn^2＋的光致发光和能量传递

本文研究了Ca_3La_3(BO_3)_5体系中Ce~(3+)、Pb~(2+)、Mn~(2+)光致发光与组成的关系及Ce~(3+)、Pb~(2+)对Mn~(2+)发光的敏化作用。实验表明在254nm激发下,Ce~(3+)、Pb~(2+)均在紫外光区发光,而单激活的Mn~(2+)几乎不发光。Ce~(3+)、Pb~(2+)能敏化Mn~(2+)发光,且Ce~(3+)的敏化作用比Pb~(2+)强。Ce~(3+)-Mn~(2+)共激活的Ca_3La_3(BO_3)_5在紫外光激发下发出明亮的红光。Ce~(3+)-Mn~(2+)能量传递的机理为电多极相互作用的共振传递。     

Ce~(3+)在LnOX(Ln=La,Gd或Y;X=Cl,Br或I)中的发光

以激发光谱和发光光谱研究了Ce~(3+)在LnOX中的发光。光谱表明当X相同而Ln不同时,谱图上Ce~(3+)峰的位置只有较小的移动;而X不同时Ce~(3+)峰的位置有明显和有规律地移动,即按照Cl——Br——I次序往长波方向移动,这个次序与X的电负性减小的次序是一致的。还可以看到Ln=La时与Ln=Gd或Y时有差别,而且Ln=La时stokes位移较大,从离子半径角度对这些进行了讨论。     

基于油酸辅助水热法制备NaLuF4:Ln3+及光谱性质

采用油酸辅助水热法合成了具有上下转换发光性能的NaLuF_4∶Ce~(3+)、NaLuF_4∶Ce~(3+),Tb~(3+)、NaLuF_4∶Yb~(3+),Tm~(3+)、NaLuF_4∶Yb~(3+),Er~(3+)以及NaLuF_4∶Yb~(3+),Er~(3+),Tm~(3+)荧光粉材料。X射线衍射(XRD)表征结果表明产物各个衍射峰与标准卡片PDF#27-0726较好的吻合,得到六方相NaLuF_4晶体。扫描电镜(SEM)显示产物形貌为六棱柱,由粒径分布图可知属于微米级材料。NaLuF_4基质中单掺Ce~(3+)时,研究掺杂浓度对样品发光性能的影响表明NaLuF_4∶0.09Ce~(3+)的发光强度最大。双掺Ce~(3+)、Tb~(3+)时,详细讨论了NaLuF_4基质中Ce~(3+)→Tb~(3+)的能量传递机制,可认为是偶极-四极作用。在980 nm激光激发下,增大Yb~(3+)的掺杂浓度可以使Er~(3+)的红(~4F_(9/2)→~4I_(15/2))/绿(~2H_(11/2)→~4I_(15/2),~4S_(3/2)→~4I_(15/2))光发射比例增大,Er~(3+)的红光和绿光发射过程均属于双光子发射,Tm~(3+)的蓝光发射过程属于三光子发射,并且NaLuF_4∶0.20Yb~(3+),0.005Er~(3+),0.005Tm~(3+)样品实现了白光发射(x=0.335,y=0.385)。     

钡取代锶对Sr_3Al_(0.6)Si_(0.4)O_(4.4)F_(0.6):Ce~(3+)荧光粉的发光性能影响

采用高温固相法合成Ba取代Sr_3Al_(0.6)Si_(0.4)O_(4.4)F_(0.6):Ce~(3+)中Sr的氟氧铝硅酸锶钡(Sr_(3-x)Ba_xAl_(0.6)Si_(0.4)O_(4.4)F_(0.6):Ce~(3+))荧光粉。指出Ba/Sr固溶极限为x=0.9。由于Sr_3Al_(0.6)Si_(0.4)O_(4.4)F_(0.6):Ce~(3+)中Sr具有十配位Sr(1)和八配位的Sr(2),所以激活剂离子Ce~(3+)也具有两个不同的占位,通过Ce~(3+)的光谱结果,指出是由于Ba的掺入诱导Ce(1)~(3+)发光中心增加,减少了Ce(2)~(3+)发光中心,从而出现随着Ba/Sr比增加,粉样在400 nm激发下发光强度减小,而在460 nm激发下发光强度增强的现象。因此Sr_(3-x)Ba_xAl_(0.6)Si_(0.4)O_(4.4)F_(0.6):Ce~(3+)荧光粉是一款潜在的适合近蓝光激发的白光LED用荧光粉。     

REBO3中Ce3+和Bi3+对Sm3+光致发光的影响

在紫外光(UV)激发下,系统地研究了REBO_3(RE=La,Gd,Y)中Sm~(3+),Ce~(3+)和Bi~(3+)的发射光谱、激发光谱及其发光强度与组成、结构的关系.结果表明:Ce~(3+)、Bi~(3+)均可敏化LaBO_3中Sm~(3+)的发光;而在GdBO_3和YBO_3中,只有Bi~(3+)能敏化Sm~(3+)的发光,Ce~(3+)猝灭Sm~(3+)的发光.本文还探讨了三种基质中Sm~(3+)发光浓度猝灭的机理.     

Doping Effect of Bi~(3+) on the Properties of YAG:Ce~(3+),Mn~(2+) Phosphor Ceramics for Warm WLEDs

A series of Bi³⁺-doped YAG:Ce³⁺, Mn²⁺ ceramics was synthesized successfully by gel-casting method and structurally characterized by XRD and SEM. The doping effect and related mechanism of Bi³⁺ upon the luminescent property were studied. It can be assigned to the energy transfer of multipolar interaction from Bi³⁺ to Ce³⁺, leading to the improvement of emission intensity about 58% for 0.0001 Bi³⁺ and 0.05 Mn²⁺ doping. In addition, the emission is significantly red-shifted with the peak at 590 nm for the Y2.9939 Ce0.006 Bi0.0001 Al4.96 Mn0.02 Si0.02 O12 ceramic specimen with in-line transmittance 81.6% at 1100 nm. The LED module assembled from Y2.9939 Ce0.006 Bi0.0001 Al4.96 Mn0.02 Si0.02 O12 ceramic owns correlated color temperature(CCT) of 3960 K and luminous efficiency(LE) of 92 lm/W, implying that doping Bi³⁺ shows a good sensitization effect in the YAG:Ce³⁺, Mn²⁺ ceramic system and further serving as an attracting phosphor candidates for warm WLEDs applications.     

Efficient Near-infrared Down-conversion Phosphor of Ce~(3+)/Yb~(3+) Co-doped La_3Ga_5SiO_(14) and Its Spectral Structural Modulation

A series of near-infrared(NIR) down-conversion phosphors of La_3 Ga_5 SiO_(14)(LGS):Ce~(3+)/Yb~(3+)were synthesized via high-temperature solid-state reaction. Under excitation at 345 nm, the phosphors show strong NIR emission around 978 nm, which matches well with the optimal spectral response of crystalline silicon(c-Si)solar cells. The emission spectra and decay curves were used to demonstrate the energy transfer from Ce~(3+) to Yb~(3+).The energy transfer mechanism was discussed in detail, indicating that the energy transfer from Ce~(3+) to Yb3+ is dominated by a single photon process, and the energy transfer efficiency is up to 51%. In addition, La3 Ga5-zAlzSiO_(14)(z = 0, 1, 2, 3):Ce3+/Yb~(3+) were also synthesized. The NIR emission intensity of La3 Ga2 Al3 SiO14:1%Ce~(3+)/5%Yb~(3+) is 4.6 times that of LGS:1%Ce~(3+)/5%Yb~(3+), and the thermal relaxation was used to explain this phenomenon. The results show that La_3 Ga_(5-z)AlzSiO_(14)(z = 0, 1, 2, 3):1%Ce~(3+)/5%Yb~(3+) phosphors have the potential to increase the conversion efficiency of c-Si solar cells.     

Mn2+在铝酸盐中的发光

用金属硝酸盐、稀土氧化物和乙酸锰为原料,用燃烧法合成了Ce³⁺、Tb³⁺、Mn²⁺共激活的铝酸盐绿色荧光粉,在Ce³⁺和Tb³⁺共激活的铝酸盐体系中掺入Mn²⁺后,发射峰中出现锰的特征峰.通过对其结构的分析,对Mn²⁺发光和最佳掺杂量给出了合理的解释.同时研究了不同碱金属和碱土金属离子代替Mg²⁺时,对Mn²⁺发光的影响.     

掺锰五磷酸铈、铽晶体的生长及其光谱

用蒸发溶液法从磷酸溶液中首次生长出一系列Ce_xTb_(1-x)P_5O_(14):Mn晶体。它们属于单斜晶系,空间群P2_1/c。计算了晶格常数,用EPR结果确定在晶体中锰离子呈二价。测定了Ce_xTb_(1-x)P_5O_(14):Mn晶体的光谱,说明在晶体中存在着Ce~(3+)到Tb~(3+)和Mn~(2+)的能量转移。Mn~(2+)和Tb~(3+)的发射峰重叠,并使Tb~(3+)的发射峰增强。     

荧光光度法同时测定稀土氧化物中铈钆铽

在０．６ｍｏｌ．Ｌ＾－１的 到介质中,分别用２５２、２７３、２２０ｎｍ作为Ｃｅ＾３＋、Ｇｄ＾３＋、Ｔｂ＾３＋的激发波和燕生相应最佳发波长为３５０、３１０和５４４ｎｍ。用盐酸体系测定混合样比用硫酸体系测定时,Ｇｄ＾３＋的检出限提高一倍,Ｇｄ＾３＋抗Ｃｅ＾３＋的干扰能力提高１０倍。同时测定三种离子的回收率在９５．３％～１０８．１％之间。     

Spectral Property and Thermal Quenching Behavior of Tb3+-Doped YAG∶Ce Phosphor

A series of YAG:Ce,Tb phosphors were synthesized by vacuum sintering method.Moreover,their spectral properties,thermal quenching behaviors and color rendering properties were investigated systematically.The photoluminescence emission spectra of YAG:Ce,Tb show a great red shift compared with that of YAG:Ce.Direct energy transfer from Tb~(3+) to Ce~(3+) ions is verified based on the analysis of different photoluminescence spectra.The quenching temperature for Tb~(3+)-doped YAG:Ce phosphors is about 490 K.The thermal activation energy is estimated to be 0.18 and 0.291 eV for Tb~(3+)-doped YAG:Ce and YAG:Ce phosphors,respectively.The smaller activation energy for Tb~(3+)-doped YAG:Ce means a more rapid nonradiative transition from 5d to 4f state,thus resulting in the lower quenching temperature.In addition,white LEDs with improved color rendering properties are achieved by using modified YAG:Ce,Tb phosphors.     

稀土铈对铝合金LY12CZ微生物腐蚀行为的影响

采用紫外分光光度法（UVS）、最大可能数法（MPN）、循环阳极极化法、电化学阻抗谱（EIS）和表面荧光显微法（EFM）研究了不同含量稀土Ce³⁺离子对硫酸盐还原菌（SRB）生长及LY12CZ铝合金微生物腐蚀行为的影响.结果表明:低浓度的Ce³⁺离子能够促进SRB生长,而高浓度时则抑制其生长;循环阳极极化曲线表明,稀土Ce³⁺离子的加入使铝合金LY12CZ的点蚀敏感性降低;电化学阻抗谱表明,在纯培养基中,随稀土Ce³⁺离子浓度的增大,铝合金耐蚀性增大.而在接种1%SRB的培养基中,当Ce³⁺浓度为0.376 mg·L^-1时,生长旺盛的生物膜与Ce³⁺间产生协同作用,增加了基体铝合金耐腐蚀性能.随着Ce³⁺浓度的增加,SRB生长受到抑制,不能形成致密的生物膜.此时SRB的存在促进铝合金腐蚀,显著减弱Ce³⁺对基体铝合金的保护作用.     

Chiral discrimination for enantiomers of amino acids using an electrochemiluminescence method

On the basis of our new findings that the enantiomers of some amino acids can interact with Ru(bpy)3(2+) by electron-transferring to induce different luminescence spectra, depending on their electrochemical enantioselectivities to Ru(bpy)3(2+), an electrochemiluminescence (ECL) chiral discrimination method has been developed. The L and D enantiomers of amino acids in synthetic samples have been determined based on the luminous intensities; the relative errors were less than or equal to 6.0%. The enantioselectivity of the enantiomers to Ru(bpy)3(2+) was demonstrated by chronocoulometry.     

GRAFT COPOLYMERIZATION OF ACRYLAMIDE ONTO POLY(N-PARA-TOLYLACRYLAMIDE) FILMS INITIATED BY CERIC ION

Functional monomers having phenylcarbamoyl and p-tolylcarbamoyl were synthesized. Binary initiation system consisted of Ce~(4+) and these functional monomers could initiate acrylamide polymerization. It was found that acrylamide could graft copolymerize onto macromolecules having these functional monomers units. The formation of graft copolymer has been verified by its percentage of water absorption, contact angle with water, XPS and SEM photographs. The reaction mechanism was proposed and the main reactive site of graft ocpolymerization initiated by Ce~(4+) would take place predominantly at the functional pendant group.