GdAlO_3∶Tb,RE中Tb,RE的能量传递研究

采用柠檬酸盐硝酸盐燃烧法制备了GdAlO3∶Tb,RE荧光粉体.在紫外激发下(254nm),GdAlO3∶Tb发射绿色荧光(5D4→7F5,544nm),Dy共掺杂对绿色发光有增强作用,Ce共掺杂对GdAlO3∶Tb绿色发光有降低作用.激发谱和能谱研究表明:Dy能级嵌入Tb主发射能级5D4(绿色发光能级)、5D3(蓝色发光能级)能级之间,Ce能级嵌入Tb主发射能级5D4、5D3能级上方.这种能级嵌入方式,使得稀土离子之间存在声子支持的共振能量传递,但Tb→Dy→Tb能量传递使Tb绿色发射(5D4→7FJ(J=3,4,5,6))增强,蓝色发射(5D3→7FJ(J=3,4,5,6))减弱;而Ce→Tb能量传递使Tb蓝色发射增强,绿色发射减弱.     

凝胶-燃烧法合成YAG∶Eu~(3+)纳米荧光材料的结构和发光性能

处于4f6电子组态的Eu3 是一个理想的荧光探针离子,通过它的荧光光谱结构可以探测被取代离子周围的对称性。最近,Eu3 作为荧光探针探测了YVO4纳米晶的表面效应[1]。因此Eu3 离子掺杂的发光材料引起了人们的广泛关注[2~4]。钇铝石榴石Y3Al5O12(YAG)具有优良的物理和化学性能,被广     

Eu3+和Tb3+在LnBaB9O16中的紫外和真空紫外发光性质

研究了Tb3+和Eu3+在LnBaB9O16(Ln=La,Gd,Y,Lu)中的紫外和真空紫外光谱性质.X射线粉末衍射数据指标化结果表明,LnBaB9O16(Ln=La,Gd,Y,Lu)系列化合物属于三方晶系.Eu3+的荧光光谱结果表明,LaBaB9O16和GdBaB9O16中稀土离子占据非中心对称的格位,Eu3+在其中的特征发射以5D0→7F2电偶极跃迁为主;而在YBaB9O16和LuBaB9~O16中稀土离子占据中心对称性的格位,Eu3+在其中的特征发射以5D0→7F1磁偶极跃迁为主.Tb3+在LaBaB9O16和GdBaB9O16中的发射为5D3→7F0和5D4→7F1(J=0～6)辐射跃迁,在YBaB9O16和LuBaB9O16中只能观察到5D4→7F1(J=3～6)辐射跃迁.与Eu3+的发光性质相反,Tb3+占据非中心对称的格位时的发射强度比占据中心对称的格位时要弱得多.Eu3+和Tb3+掺杂的样品在真空紫外波段的吸收弱.     

Eu3+掺杂SiO2-Al2O3-B2O3玻璃制备及光谱性能研究

高温溶制了Eu^3＋掺杂SiO2-Al2O3-B2O3-MxOy（M=Li^＋,Na^＋,K^＋,Mg^2＋,Ca^2＋,Sr^2＋,RE^3＋）硼硅酸盐玻璃,测试了玻璃样品的发射光谱、激发光谱和透射光谱,研究了不同碱金属离子、碱土金属离子对该系统荧光性能的影响。利用发射光谱计算了Ω2,Ω4以及^5D0到^7F2,^7F4的自发辐射几率和振子强度f（^5D0→^7F2）,f（^5D0→^7F4）。结果表明,材料的发射能级为^5D0→^7F1（590nm）,^5D0→^7F2（617nm）,^5D0→^7F4（698nm）,而且材料的结构对称性越差,跃迁戒律打破地越彻底,荧光发射越强。     

SrZnO_2∶Eu~(3+),Li~+长波紫外激发红光荧光体的合成及发光性能研究

采用高温固相法合成了一种长波紫外激发的SrZnO2∶Eu3+,Li+发光材料,用X射线衍射谱、荧光光谱对样品进行了表征。结果表明,Eu3+离子在SrZnO2基质中主要占据Sr2+离子不对称性格位,发射来源于5D0→7F2612 nm为主的红光。加入电荷补偿剂Li+离子能显著提高发光强度,350~400 nm内的激发峰也有明显提高,同时观察到来自Eu3+离子高能级5D1→7FJ(J=0~2)的跃迁发射,并对其产生机制进行了初步探讨。实验结果表明,SrZnO2∶Eu3+,Li+是一种有发展前途的长波紫外激发红光荧光体。     

GdAl03：Tb，RE中Tb，RE的能量传递研究

采用柠檬酸盐硝酸盐燃烧法制备了GdAl03：Tb,RE荧光粉体,在紫外激发下（254nm）,GdAl03：Tb发射绿色荧光（^5D4→^7F5,544nm）,Dy共掺杂对绿色发光有增强作用,Ce共掺杂对GdAl03：Tb绿色发光有降低作用,激发谱和能谱研究表明：Dy能级嵌入Tb主发射能级^5D4（绿色发光能级）、^5D3（蓝色发光能级）能级之间,欧能级嵌入Tb主发射能级^5D4、^5D3能级上方,这种能级嵌入方式,使得稀土离子之间存在声子支持的共振能量传递,但Tb→Dy→Tb能量传递使Tb绿色发射（^5D4→^7FJ（J=3,4,5,6））增强,蓝色发射（^5D3→^7FJ（J=3,4,5,6））减弱;而CPTb能量传递使Tb蓝色发射增强,绿色发射减弱。     

SrZnO2:Eu3+, Li+长波紫外激发红光荧光体的合成及发光性能研究

采用高温固相法合成了一种长波紫外激发的SrZnO2：Eu^3＋, Li^＋发光材料, 用X射线衍射谱、荧光光谱对样品进行了表征. 结果表明, Eu^3＋离子在SrZnO2基质中主要占据Sr^2＋离子不对称性格位, 发射来源于5D0→7F2 612 nm为主的红光. 加入电荷补偿剂Li^＋离子能显著提高发光强度, 350～400 nm内的激发峰也有明显提高, 同时观察到来自Eu^3＋离子高能级5D1→7FJ（J=0～2）的跃迁发射, 并对其产生机制进行了初步探讨. 实验结果表明, SrZnO2：Eu^3＋, Li^＋是一种有发展前途的长波紫外激发红光荧光体.     

空气中合成M_2B_4O_7∶Eu~(3+)(M=Na,K)荧光体及其性质表征

以 M2 B4 O7( M=Na,K)为基质 ,在空气中掺杂稀土元素 Eu3+ 得到了 Na2 B4 O7∶ Eu3+ 和 K2 B4 O7∶ Eu3+荧光体 .探讨了体系的烧结条件和荧光性质 ,分析了晶体的结构 .结果表明 ,虽然两种体系的最佳合成条件不同 ,但是体系中都同时存在 [BO4 ]和 [BO3]结构 ;稀土离子 Eu3+ 的发光以电偶极跃迁5D0 -7F2 为主 ,处于非中心对称的格位上 ,并且可以很好地存在于基质中 ,Na2 B4 O7∶Eu3+ 具有较强的发光强度     

空气中合成M2B4O7:Eu3+(M=Na,K)荧光体及其性质表征

以M2B4O7(M=Na,K)为基质,在空气中掺杂稀土元素Eu3+得到了Na2B4O7:Eu3+和K2B4O7:Eu3+荧光体.探讨了体系的烧结条件和荧光性质,分析了晶体的结构.结果表明,虽然两种体系的最佳合成条件不同,但是体系中都同时存在[BO4]和[BO3]结构;稀土离子Eu3+的发光以电偶极跃迁5D0-7F2为主,处于非中心对称的格位上,并且可以很好地存在于基质中,Na2B4O7:Eu3+具有较强的发光强度.     

稀土配合物的发光特性及其能量传递研究

利用激光诱导荧光技术研究了稀土铕等金属配合物的发光特性及其能量传递动力学过程．得到了这些稀土配合物中中心离子Eu（3 ）的激发光谱，配体的三线态发时光谱和单线态发射光谱；在实验上观察到由于中心离子Eu（3 ）的5D2←7F0马跃迁吸收造成的配体发射光谱中的凹陷行为     

Understanding the synergistic catalytic effect between La(2)O(3) and CaO for the CH(4) lean De-NO(x) reaction: kinetic and mechanistic studies

Doping of La(2)O(3) crystallites with Ca(2+) ions significantly enhances the intrinsic rate of NO reduction by CH(4) in the presence of 5% O(2) at 550 degrees C compared to pure La(2)O(3) and CaO solids, while the opposite is true after doping of CaO with La(3+) ions. It was found that the 5 wt % La(2)O(3)-95 wt % CaO system has one of the highest intrinsic site reactivities (TOF = 8.5 x 10(-3) s(-1)) reported at 550 degrees C for the NO/CH(4)/O(2) reaction among metal oxide surfaces. The doping process occurred after first dispersing La(2)O(3) and CaO crystallites in deionized water heated to 60 degrees C for 90 min, while the dried material was then ground and heated slowly in air to 800 degrees C and kept at this temperature for 5 h. The doping process had the effect of creating surface oxygen vacant sites (F-type defects) in the oxide lattices the concentration of which is a function of the wt % La(2)O(3) used in the mixed oxide system as revealed by photoluminescence and O(2) chemisorption studies. According to DRIFTS (15)NO transient isotopic experiments (SSITKA), oxygen vacant sites in Ca(2+)-doped La(2)O(3) promote the formation of a more active chemisorbed NO(x) species (NO(2)(-)) that contributes to the enhancement of reaction rate as compared to pure lanthana, calcium oxide, and La(3+)-doped CaO. These results were supported by the kinetic orders of the reaction with respect to NO and O(2) obtained as a function of wt % La(2)O(3) content in the mixed oxide system. Carbon dioxide (a reaction product) competes for the same oxygen vacant sites to form stable adsorbed carbonate-like species, thus lowering the reduction rate of NO. The dependence of the reaction TOF on the wt % La(2)O(3) loading at 550 degrees C was found to follow the trend of the dependence of photoluminescence intensity on the wt % La(2)O(3) content in the La(2)O(3)-CaO oxide system.     

碱性助剂的添加对Ni/CaO-Al2O3催化剂性能的影响

在CH4、 CO2和O2制合成气的反应中, 通过在Ni/CaO-Al2O3催化剂中添加碱性助剂K2O、 MgO和La2O3, 使催化剂的性能得到了改善. 实验结果表明, MgO和La2O3助剂的添加, 有利于提高催化剂的活性;添加K2O, 却相反. 测得催化剂上积炭量的顺序为: Ni-La2O3/CaO-Al2O3相似文献   

La2O3/MgO催化剂上的甲烷氧化偶联

研究了甲烷在La_2O_3/MgO催化剂上的氧化偶联。发现制备过等对催化剂的行为有显著影响。比较了催化剂的反应性能和体相结构,表明在MgO上存在着三种La_2O_3的状态:高分散La_2O_3是最活泼的;La(OH)_3不太活泼;而呈六方晶相的La_2O_3晶粒活性最低。在催化剂中加入Na_2CO_3和K_2CO_3可以改进催化剂的活性和选择性。还考察了反应条件如温度和空速的影响。     

可见光下Fe3+掺杂对K2La2Ti3O10分解水制氢性能的影响

采用溶胶-凝胶法制备了Fe3+掺杂的Fe-K2La2Ti3O10光催化剂, 并通过X射线衍射(XRD)、紫外-可见漫反射(DRS)、X射线光电子能谱(XPS)等技术对其进行了表征和分析, 考察了不同掺杂量对K2La2Ti3O10的性质及光催化分解水制氢活性的影响. 结果表明, Fe-K2La2Ti3O10在400-650 nm范围内显示强吸收, 光谱响应扩展到可见光区(λ>400 nm), 掺杂Fe3+后, K2La2Ti3O10的可见光区的光催化制氢活性显著提高, 掺杂量为nFe/nTi=0.04时活性最佳, 当催化剂用量为0.1 g, 反应液为CH3OH(30 mL)+H2O(90 mL)时, 产氢量达到1.92 μmol·h-1, 为未掺杂时的4倍.     

Ce掺杂K_2La_2Ti_3O_(10)催化剂的可见光高效催化制氢的研究

采用高温固相法合成了铈掺杂的K2La2Ti3O10催化剂,利用X射线衍射(XRD)、紫外-可见漫反射(UV-visDRS)、透射电镜(TEM)和X射线光电子能谱(XPS)对催化剂进行了表征.考察了催化剂的可见光催化分解甲醇水溶液制氢的活性,并对可见光催化机理进行了分析.研究表明,铈的掺杂没有改变K2La2Ti3O10的微晶结构,并使催化剂粒径有所减小.紫外可见漫反射分析表明禁带宽度为2.3eV左右,对可见光具有较高吸收.XPS表明La和Ti为+3和+4价,而Ce则是+3和+4的混合价态.担载2wt%Pt后,在可见光下光催化活性大大提高,当铈的掺杂量为0.5mol%(即Ce取代La的摩尔百分量)时,光催化活性达到最大,产氢速率为0.05mmol/h;光照5h后产氢量为0.22mmol,而纯K2La2Ti3O10的产氢量只有0.037mmol.     

Experimental investigation of fluidized-bed reactor performance for oxidative coupling of methane

Performance of the oxidative coupling of methane in fluidized-bed reactor was experimentally investigated using Mn-Na2WO4/SiO2,La2O3/CaO and La2O3-SrO/CaO catalysts.These catalysts were found to be stable,especially Mn-Na2WO4/SiO2 catalyst.The effect of sodium content of this catalyst was analyzed and the challenge of catalyst agglomeration was addressed using proper catalyst composition of 2%Mn2.2%Na2WO4/SiO2.For other two catalysts,the effect of Lanthanum-Strontium content was analyzed and 10%La2O 3-20%SrO/CaO catalyst was found to provide higher ethylene yield than La2O3/CaO catalyst.Furthermore,the effect of operating parameters such as temperature and methane to oxygen ratio were also reviewed.The highest ethylene and ethane (C2) yield was achieved with the lowest methane to oxygen ratio around 2.40.5% selectivity to ethylene and ethane and 41% methane conversion were achieved over La2O3-SrO/CaO catalyst while over Mn-Na2WO4 /SiO2 catalyst,40% and 48% were recorded,respectively.Moreover,the consecutive effects of nitrogen dilution,ethylene to ethane production ratio and other performance indicators on the down-stream process units were qualitatively discussed and Mn-Na2WO4/SiO2 catalyst showed a better performance in the reactor and process scale analysis.     

原位FT-IR研究甲烷和氧与SrO-La_2O_3/CaO催化剂表面的相互作用和反应(英文)

用原位FT－IR研究了甲烷和氧与纯CaO,La_2O_3和SrO氧化物以及LC和SLC催化剂的相互作用和反应．当不存在气相氧时,引入的甲烷与表面晶格氧反应生成碳酸盐物种。在室温或高温下,在这些氧化物和催化剂上不能检测到CH_4或O_2的吸附物类。但是,当CH_4和O_2同时存在时,在La_2O_3和LC催化剂上能检测到1118cm~－1的新谱带、这一谱带可能来自于表面碳酸盐在高温下氧气氛中的分解,并可归属为物种。甲烷与这一活性氧物种反应生成C_2H_4。但对SLC催化剂,在高温下不能检测到物种,而甲烷和氧在高温下反应也能产生表面碳酸盐并在气相中形成乙烯,这就表明,气相氧对这些催化剂也起着关键作用,但是在LC和SLC催化剂上甲烷氧化偶联反应可能有本质上的差别。     

MnOx/Al2O3/Ce0.45Zr0.45M0.10Oy （M = Mn, Y, La） catalysts used for ethanol catalytic combustion

MnOx/Al2O3/Ce0.45Zr0.45M0.10Oy (M = Mn,Y,La) catalysts were prepared by impregnation method and characterized by BET,TPR and XRD analyses.The catalytic activities toward ethanol combustion were investigated in a microreactor.The results demonstrated that the catalytic activity of MnOx/Al2O3/Ce0.50Zr0.50O2 monolithic catalyst could be improved by doping Mn,Y and La into Ce0.50Zr0.50O2.When doping Y into Ce0.50Zr0.50O2,the catalyst MnOx/Al2O3/Ce0.45Zr0.45Y0.10O1.95 showed the highest activity.The 100% conversion temperature of ethanol was 230 ℃.Furthermore,once the conversion of ethanol started,the complete conversion was quickly achieved.The doping of Mn,Y and La led to better activity for ethanol combustion and lower temperature reduction peaks in TPR profiles.The doping of Mn resulted in enhanced oxygen storage capacity (OSC),larger area of the reduction peaks,and excellent reactivity,and the doping of Y resulted in the lowest reduction temperature and the best activity.     

甲烷在SrO-La_2O_3/CaO催化剂上的氧化偶联 Ⅰ.SrO对La_2O_3/CaO催化剂的助催化作用

在常压流动反应装置上评价了一系列La_2O_3/CaO催化剂和SrO-La_2O_3/CaO催化剂。实验表明:La_2O_3/CaO体系是很好的甲烷氧化偶联催化剂。在1073K和CH_4:O_2:He=4:1:5(总流速120ml/min)的实验条件下,20％La_2O_3/CaO催化剂上的甲烷转化率为26％,C_2选择性为53％;加入助剂SrO(15—20％)后,在同样实验条件下,甲烷转化率为29％,C_2选择性为66％。表明SrO对La_2O_3/Cao催化剂有明显的促进作用。用XRD,XPS和TPD(CO_2-TPD和O_2-TPD)技术表征了SrO-La_2O_3/CaO催化剂体系,结合反应评价结果,认为SrO的促进作用可以归结为:(1)调变了催化剂的碱性强度分布,提高了催化剂表面强碱中心的数目;(2)提高了La_2O_3的分散度;(3)抑制了催化剂的低温氧吸附物类。