Y_3Al_5O_(12)∶Ce~(3 )的合成及真空紫外发光性质

采用高温固相反应及共沉淀法合成Y3-xAl5O12∶Ce3x (x=0.01,0.03,0.05,0.07,0.09)黄色系列粉末状发光材料。经X射线衍射分析产物为单相,属立方晶系,其结果与JCPDS标准卡(88-2047)相符。分析了两种方法合成的粉末样品的SEM照片,发现共沉淀法不仅能降低合成温度,对细化粉体晶粒粒度也有较大作用。检测了材料的真空紫外激发光谱和发射光谱。发现,Y3Al5O12∶Ce3 的真空紫外激发光谱,在100~300nm范围内呈三个带状峰,峰值分别在126,177,230nm附近。随着Ce3 含量x由0.01增加到0.05,YAG∶Ce3 发射强度逐渐增加到最大值,之后随着x继续增加其发射强度逐渐下降,呈现明显的浓度猝灭现象。     

YVO_4∶Tm~(3+)的真空紫外发光性能(英文)

通过高温固相反应合成YVO4∶xTm(x=0.001,0.003,0.005,0.007,0.01,0.03,0.05)蓝色系列粉末状发光材料。经X射线衍射分析产物为单相,属四方锆英石结构,其结果与JCPDS标准卡(72-0861)相符。检测了材料的真空紫外激发光谱和发射光谱。YVO4∶xTm的真空紫外激发光谱在120~350 nm范围内为连续的带状峰,在155 nm和333 nm附近有明显的峰值。在155 nm激发下,YVO4∶xTm的发射光谱由两部分组成,其中主发射峰在474 nm附近呈一尖锐的线状,来自Tm3+的1G4→3H6跃迁;在650 nm左右有一弱发射峰,来自Tm3+的1G4→3H4跃迁。另外,还有一较弱的带状发射,中心位于540 nm左右,来自样品的VO3-4离子的宽带发射。随着Tm3+摩尔分数x由0.001增加到0.005,Tm3+发射光谱强度逐渐增加到最大值。之后随着x继续增加,发射光谱强度逐渐下降,呈现明显的浓度猝灭现象。通过对YVO4∶xTm的光谱分析及其发光机理进行推导,认为YVO4∶Tm3+在紫外及真空紫外激发下,是一种具有较高发光效率以及色纯度较好的蓝色发光材料。     

M2SiO4:Re(M=Mg,Ca,Ba;Re=Ce3+,Tb3+)的发光性能

合成了系列M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )样品,研究了样品在真空紫外区域的激发光谱和发射光谱.从激发谱可以看出:M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )在147,172 nm有很强的吸收带.用Mg,Ca完全取代Ba2SiO4∶Tb3 中的Ba ,相对应的晶体的晶格参数逐渐增大,晶场的能量逐渐减少,其激发光谱随着碱土离子半径的增加向长波方向移动.在172 nm真空紫外光激发下,观察到M2SiO4∶Re(M=Mg,Ca,Ba; Re=Tb3 和M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )特征发射;在真空紫外激发下,随着M2SiO4∶Re(M=Mg,Ca,Ba; Re= Ce3 ,Tb3 )中Ce3 含量的增加,M2SiO4∶Re的特征发射明显减弱,并分析讨论了相关发光现象的成因.     

M_2SiO_4∶Re(M=Mg,Ca,Ba;Re=Ce~(3+),Tb~(3+))的发光性能(英文)

合成了系列M2SiO4∶Re(M=Mg,Ca,Ba;Re=Ce3 ,Tb3 )样品,研究了样品在真空紫外区域的激发光谱和发射光谱。从激发谱可以看出:M2SiO4∶Re(M=Mg,Ca,Ba;Re=Ce3 ,Tb3 )在147,172nm有很强的吸收带。用Mg,Ca完全取代Ba2SiO4∶Tb3 中的Ba,相对应的晶体的晶格参数逐渐增大,晶场的能量逐渐减少,其激发光谱随着碱土离子半径的增加向长波方向移动。在172nm真空紫外光激发下,观察到M2SiO4∶Re(M=Mg,Ca,Ba;Re=Tb3 和M2SiO4∶Re(M=Mg,Ca,Ba;Re=Ce3 ,Tb3 )特征发射;在真空紫外激发下,随着M2SiO4∶Re(M=Mg,Ca,Ba;Re=Ce3 ,Tb3 )中Ce3 含量的增加,M2SiO4∶Re的特征发射明显减弱,并分析讨论了相关发光现象的成因。     

橙红色荧光粉Ca_3Y_2(Si_3O_9)_2∶Sm~(3+)的制备及发光性能的表征

采用高温固相法合成了Ca3Y2-2x(Si3O9)2∶2xSm3+系列荧光粉,并表征了材料的发光特性.X射线衍射图谱表明:得到的样品为纯相Ca3Y2(Si3O9)2晶体;样品的激发光谱主要来源于Sm3+的特征激发;分别采用紫外、近紫外和蓝光作为激发源,样品均发射橙红光.在402nm近紫外光激发下,Ca3Y2(Si3O9)2∶Sm3+发射光谱主要由3个峰组成,发射峰值分别位于565nm、604nm和651nm,归属于Sm3+的4G5/2→6HJ/2(J=5,7,9)跃迁,其中发射主峰位于604nm处.通过时间分辨光谱测得Sm3+的4G5/2能级的荧光寿命.随着Sm3+摩尔浓度的增加,样品发光强度先增强后减弱,当x=0.02时发光强度达到最大,浓度猝灭机理为电偶极-电偶极相互作用.     

橙红色荧光粉Ca3Y2(Si3O9)2∶Sms3+的制备及发光性能的表征

采用高温固相法合成了Ca3Y2－2x(Si3O9)2∶2xSm3+系列荧光粉,并表征了材料的发光特性.X射线衍射图谱表明:得到的样品为纯相Ca3Y2(Si3O9)2晶体;样品的激发光谱主要来源于Sm3+的特征激发;分别采用紫外、近紫外和蓝光作为激发源,样品均发射橙红光.在402 nm近紫外光激发下,Ca3Y2(Si3O9)2∶Sm3+发射光谱主要由3个峰组成,发射峰值分别位于565 nm、604 nm和651 nm,归属于Sm3+的4G5/2→6HJ/2(J=5, 7, 9)跃迁,其中发射主峰位于604 nm处.通过时间分辨光谱测得Sm3+的4G5/2能级的荧光寿命.随着Sm3+摩尔浓度的增加,样品发光强度先增强后减弱,当x=0.02时发光强度达到最大,浓度猝灭机理为电偶极-电偶极相互作用.     

YAG:Ce3+的合成与光谱性能研究

采用共沉淀法合成了YAGCe3+(Y3Al5O12Ce3+)光致发光荧光粉并测定了其激发光谱、发射光谱及粒度对发光强度的影响.结果表明,YAGCe3+荧光粉激发光谱为双峰结构,两主峰分别位于近紫外和可见光区,发射光谱为宽峰,峰值为550nm.X射线衍射(XRD)分析表明该发光粉为纯YAG晶相.     

Ba3Tb(BO3)3:Ce3+:一种白光LED用绿色荧光粉

采用高温固相法合成了Ba3Tb(BO3)3和Ba3Tb(BO3)3:Ce3+两种绿色荧光粉,并研究了材料的发光性质.Ba3Tb(BO3)2材料呈多峰发射,发射峰位于439,493,547,589和629 nm,分别对应Tb3+的5D3→7F4和5D4→7F1=6,5,4,3跃迁发射,主峰为547 nm;监测547 nm发射峰,所得激发光谱由4f75d1宽带吸收(200-330 nm)和4f4f电子吸收(330-400 nm)组成,主峰为380 nm.以Ce3+激活Ba3Tb(BO3)3,所得Ba3Tb(BO3)3:Ce3+与Ba3Tb(BO3),材料的发射光谱分布相同,但发射强度明显增强,说明Ce3+对Tb3+产生了很好的敏化作用;监测547 nm最强发射峰,所得激发光谱为宽带,主峰位于360 nm.改变H3BO3量,Ba3Tb(BO3)3:Ce3+材料的发射强度随之变化,当H3BO3过量15 wt%时,发射强度最大.上述研究结果表明Ba3Tb(BO3)3:Ce3+是一种很好的适于UV-LED管芯激发的白光LED用绿色荧光粉.     

真空紫外-紫外光激发下的Na_2SO_4:TbF_3的发光性质

在空气中900℃温度下,对纯天然无水芒硝(Na2SO4)和TbF3的混合粉末加热20min,制备了Na2SO4:TbF3发光材料。并测量了在室温中真空紫外-紫外光下的发射和激发光谱。发射光谱有一系列由于Tb3+离子的5D4→7FJ(J=6,5,4,3,2)和5D3→7FJ(J=6,5,4,3,2)跃迁发射峰。通过监测542nm处发光得到的激发光谱,分别由Tb3+离子4fn→4fn-15d跃迁(187,193,218nm),基质吸收(165,200,240nm)引起的强激发谱和禁戒的f-f跃迁产生的弱激发谱组成。在TbF3的掺杂量在0.3%～2%范围内,随着Tb3+离子掺杂量的增加,真空紫外区的激发谱相应地逐渐增强。     

Ce3+在LiBaBO3中的发光特性及晶体学格位

采用固相法制备了LiBaBO3:Ce3+发光材料.测得LiBaBO3:Ce3+材料的发射光谱为一不对称的单峰宽谱,主峰位于440 nm;监测440 nm发射峰,可得其激发光谱为一主峰位于370 nm的宽谱.利用van Uitert公式计算了Ce3+取代LiBaBO3中Ba2+时所占晶体学格位,得出438 nm发射带归属于九配位的Ce3+发射,而469 nm发射带起源于八配位的Ce3+发射.研究了Ce3+浓度对LiBaBO3:Ce3+材料发光强度的影响,结果显示,随Ce3+浓度的增大,发光强度呈现先增大后减小的趋势,Ce3+浓度为3mol%时强度最大,造成其浓度猝灭的原因为电偶极-偶极相互作用.引入Li+,Na+或K+可增强LiBaBO3:Ce3+材料的发射强度.利用InGaN管芯(370 nm)激发LiBaBO3:Ce3+材料,获得了很好的蓝白光发射,色坐标为(x=0.291,y=0.297).     

Fine structure and isotope shift of the 3s4d 3 D-3s3p 3 P, 3s5d 3 D-3s3p 3 P and 3p 2 3 P-3s3p 3 P Transitions of MgI

Summary We report the measurements of the³ D(3s4d)-³ P(3s3p)³ D(3s5d)-³ P(3s3p), and³ P(3p ²)-³ P(3s3p) transition frequency of MgI, the fine-structure separation and isotope shift between²⁴Mg and²⁶Mg. The measurements have been performed in a metastable atomic beam; a good agreement is found for data already existing in the literature. The accuracy of the measurements reported in this paper is mainly limited by the Doppler broadening of theI ₂ transitions used as a reference and by the precision in the knowledge of the related wavelengths.     

LaGaO3:RE3+(RE3+=Eu3+,Ho3+)的光谱

本文用固态反应合成了钙钛矿型的LaGaO3和LaGaO3:RE3+(RE3+=Eu3+,Ho3+)荧光体,并观察了物相随不同的激活离子浓度的变化。测量了化合物在室温下的反射光谱,激发光谱和荧光光谱。研究了Eu3+的D0→7F2和Ho3+的5S2→5I8的荧光强度与激活离子浓度的关系,发现了浓度猝灭,并得到了最大荧光强度的浓度值。     

The gas phase infrared band contours of s-triazine and s-triazine-d3: The fundamentals of C3N3H3 and C3N3D3 and some overtone and combination bands of C3N3H3

The systematic application of band contour techniques to account for most of the observed features of the ir spectra of s-triazine and s-triazine-d₃ have been made as well as a critique as to the limitations of such methods. The experimental and computer methods used to study the gas phase infrared band contours of s-triazine and s-triazine-d₃ are out-lined. Contours of the five E′ fundamentals of s-triazine have been recorded under moderate resolution and analyzed to give the Coriolis constants $\text{ζ}{}_{\mathrm{i}}{}^{\mathrm{z}}$, i = 6–10. The effects of l-resonance are very apparent for ν₈ and ν₉, in the form of holes in the Q branches of these bands. Under the highest resolution available, ν₆ and ν₁₀ also show l-resonance effects. Values of the l-doubling constants $\text{q}{}_{\mathrm{i}}{}^{\mathrm{(+)}}$ were obtained for these four fundamentals. One of the parallel A₂″ fundamentals of C₃H₃N₃ (ν₁₂) has also been studied. It lies close to ν₁₀(E′) and an A × E type of second-order Coriolis resonance may be the cause of the intensity enhancement observed in the inner wings of the ν₁₂ and ν₁₀ bands. Hot bands of the type (ν_i + nν₁₄ ? nν₁₄) have been observed in the contours of ν₈, ν₁₀, and ν₁₂. This is felt to be responsible for the large difference between our observed zeta sum (?1.30) and the theoretical sum (?1.00).The gas phase infrared band contours of the five E′ and 2A₂″ fundamentals of C₃N₃D₃ have also been recorded under moderate resolution. From P-R separations and by computer simulation of the contours, values of the Coriolis constants $\text{ζ}{}_{\mathrm{i}}{}^{\mathrm{z}}$ have been obtained for the E′ modes. The effects of l-resonance have been observed for ν₈(E′) and ν₁₀(E′) and values of the l-doubling constants $\text{q}{}_{\mathrm{i}}{}^{\mathrm{(+)}}$ have been estimated. An extensive series of hot bands of the type (ν₁₂ + nν₁₄ ? nν₁₄) has been observed in the contour of the ν₁₂ (A₂″) fundamental. The mass effect on the Coriolis constants has been discussed.Infrared band contours of the overtone 2ν₇ and seven degenerate E′ combination bands of C₃N₃H₃ have been recorded under moderate resolution. Analysis of these contours using the P-R separation method and computer simulation of the contours has given values of $\text{ζ}{}_{\mathrm{<mtext>eff</mtext>}}{}^{\mathrm{z}}$ for these bands. Fermi resonance between 2ν₇ and ν₆ has been analyzed. The importance of considering both the observed contour as well as the observed frequency when assigning higher tone bands is illustrated.     

Infrared spectra of matrix isolated BH3NH3, BD3ND3, and BH3ND3

The infrared spectra of ammonia-borane, BH₃NH₃, and two of its deuterated isotropic species, BD₃ND₃ and BH₃ND₃, isolated in argon matrix at liquid hydrogen temperature have been measured. Well resolved bands for these three isotopic species have been observed for all the fundamentals. A complete frequency assignment based on C₃v molecular symmetry has been made. A set of force constants have been calculated from the data for the two isotopes BH₃NH₃ and BD₃ND₃ using a valence force field. The agreement between experiment and frequencies calculated from these force constants for the mixed isotopic species, BH₃ND₃, substantiates the present assignment.     

Dielectric investigations of solid solutions SrTiO3-KTaO3 and SrTiO3-KNbO3

The temperature dependences of the dielectric constant and dielectric hysteresis loops in ceramic samples of (1 ? x)SrTiO_3?x KNbO₃ and (1 ? x)SrTiO_3?x KTaO₃ (0 ≤ x ≤ 0.3) solid solutions prepared using different heat treatments have been investigated. Phase diagrams of the studied solid solutions have been constructed in the T-x coordinates. It has been shown that, after quenching of samples (spontaneous cooling at room temperature after long-term heating at the sintering temperature of the ceramic samples), the temperature of the induced phase transition increases because of the weakening of random electric fields associated with nonisovalent impurities due to their “frozen” nonequilibrium redistribution. For small concentrations x, strong dielectric relaxation is observed in the temperature range of 150–250 K. A model of relaxing centers, which is based on the local charge compensation of heterovalent impurities, has been proposed.     

Ba3La(BO3)3基质中Tb3+的光致发光

以高温固相法合成了Ba3La(BO3)3∶Tb3 发光材料。在254nm紫外光激发下,研究了Ba3La(BO3)3∶Tb3 的激发光谱、发射光谱、发光强度与Tb3 浓度的关系。确定了Ba3La(BO3)3基质中Tb3 的自身浓度猝灭机理;探讨了助熔剂LiCO、敏化剂Ce3 、Bi3 的加入对荧光粉的发光强度的影响。     

Terahertz Vibrational Modes in CH3NH3PbI3 and CsPbI3 Perovskite Films

JETP Letters - Films of CH3NH3PbI3 organometallic perovskite, which is currently considered as a promising basic material for new-generation solar cells, as well as films containing CsPbI3...     

Modulated magnetic structures of ErPb3, HoPb3, ErTl3 and HoTl3

Neutron diffraction experiments have been carried out on the magnetically ordered phases of ErPb₃, HoPb₃, ErTl₃ and HoTl₃. The magnetic moments were found to be sinusoidally modulated with a propagation vector of (0, 0.2, 0.5) for the Pb-compounds and (0.38, 0.38, 0.16) for the Tl-compounds.Work supported by the Bundesministerium für Forschung und Technologie     

CH_3NH_3 Formed by Electron Injection at Heterojunction Inducing Peculiar Properties of CH_3NH_3PbI_3 Material

The effect of formed CH_3NH_3 at the heterojunction on properties of CH_3NH_3PbI_3 material is investigated based on experiment and theoretical calculation. Our calculation results show that the giant dielectric constant, anomalous hysteresis and long-lasting polarization for CH_3NH_3PbI_3 originate from the formed CH_3NH_3 at the heterojunction. It is found that the induced weak EPS by the reorientation of CH_3NH_3 sub-group along the built-in electric field enables us to effectively increase the ordering of entire lead-halide framework. In addition, the heterojunction has an advantage of channel separation between carrier transport and electron diffusion. These properties of the heterojunction are the main origin of the high efficiency of CH_3NH_3PbI_3 solar cells.