铌酸盐Ba3NaBiNb10O30的结构与介电特性

一些铁电铌酸盐具有优良的电光性能和非线性光学性能,因此该类化合物的人工合成,结果与性能的研究受到了人们的重视,其中钨青铜结构的系列晶体（例如SBN,KNSBN,SCNN）在材料制备和器件设计方面都取得了很大进展,它们在实时全息存储,集成光学与光信号处理等领域具有广泛的应用前景[1-4],Ba2NaNb5O145(BNN)是目前认为最好的一种倍频晶体,Geusic[5,6]等人报导了在BNN晶体能实现最优位相匹配,可将1．06um红外光以100％的效率转换为0．53um绿光,我们在BaO-Na2O-Nb2O5体系中通过掺杂Bi3 合成了铌酸盐Ba3NaBiNb10O30,并采用粉晶X射线衍射（XRD）对其结构进行了分析,测试了其烧结体的介电特性。     

新钽酸盐Ba3TiTa4O15的结构与介电性能

在BaO Ta2O5系统通过掺Ti4＋合成了新钽酸盐Ba3TiTa4O15,用粉晶XRD对其结构进行了分析,并测试了其烧结体的介电特性.结果表明:Ba3TiTa4O15在室温下属于填满型四方钨青铜结构,晶胞参数a=1.256 27(6)nm, c=0.395 86(4)nm; Ba3TiTa4O15在－35 ℃从铁电相转变为顺电相.     

The Ternary System Li2O-Al2O3-B2O3: Compounds and Phase Relations

The ternary system Li₂O-Al₂O₃-B₂O₃ is reinvestigated with solid-state reaction and X-ray powder diffraction technique to clarify some long-standing uncertainties. The phase relations are constructed based on the phase identifications of 51 ternary samples. Six ternary compounds, Li₂AlB₅O₁₀, LiAlB₂O₅, Li₃AlB₂O₆, Li₂AlBO₄, LiAl₇B₄O₁₇ and a compound with a composition close to 0.66Li₂O·0.06Al₂O₃·0.28B₂O₃, are observed or confirmed in this system, and the thermal stability of these ternary compounds is also discussed on the basis of DTA experimental results.     

Al_2O_3包覆Ba_(0.6)Sr_(0.4)TiO_3复合粉体制备及表征

采用液相包覆法制备了Al2O3包覆的Ba0.6Sr0.4TiO3复合粉体。通过SEM,TEM,TG-DSC,XRD,XPS和ζ电位测试对包覆前后粉体的表面形貌、组织结构、等电点进行了测试和分析。结果表明:Al2O3以无定形结构成功的包覆在Ba0.6Sr0.4TiO3粉体表面,形成了Ba-O-Al、Sr-O-Al和Ti-O-Al键,Ba0.6Sr0.4TiO3颗粒的等电点由包覆前的pH=3.2增大至pH=8。     

铌酸盐Ba_3NaBiNb_(10)O_(30)的结构与介电特性

A niobate was synthesized by doping Bi3＋ in the ternary system BaO Na2O Nb2O5. The crystal structure was determined by X ray powder diffraction,and it belongs to tetragonal tungsten bronze structure at room temperature with unit cell parameters a=1.24777 (2) nm,c=0.39266(1) nm,α =β =γ =90° .Measurements of dielectric properties indicate that phase transitions of Ba3NaBiNb10O30 from paraelectric to ferroelectric occurs at 400℃ ,which is lower than that of Ba2NaNb5O30.     

Subsolidus Phase Equilibria in the System CaO-Al2O3-CoO and the Crystal Structure of Novel Ca3CoAl4O10

The subsolidus phase diagram, CaO-Al₂O₃-CoO, and its phase relations below 1300°C have been studied in air. The stability regions of nine subsolidus compatibility triangles were established and a new ternary phase was found. The structure of this compound, Ca₃CoAl₄O₁₀ (orthorhombic, space group Pbc2₁, a=5.1452(2) Å, b=16.7731(5) Å, c=10.7055(3) Å), was determined from X-ray diffraction data and found to be isostructural with Ca₃ZnAl₄O₁₀. This is an open framework compound with three crystallographically different channels, each with a diameter of ∼3.5 Å. The two end members of the binary CoO-CaO system are surrounded by small regions of solid solutions. Lab color parameters were measured in several compositions. No ternary phases were found when Co was substituted by other divalent cations such as Sr, Ba, Mn, Ni, Cu, Cd, Sn and Pb.     

Neutron diffraction study of La4LiAuO8: Understanding Au in an oxide environment

Owing to gold's oxophobicity, its oxide chemistry is rather limited, and elevated oxygen pressures are usually required to prepare ternary and quaternary oxide compounds with gold ions. The Au³⁺ oxide, La₄LiAuO₈, is remarkable both because it can be prepared at ambient pressure in air, and because of its unusual stability toward thermal decomposition and reduction. The structure of La₄LiAuO₈ was established by Pietzuch et al. using single crystal X-ray diffraction [1]. The compound adopts an ordered modification of the Nd₂CuO₄ structure, containing two-dimensional sheets in which AuO₄ square planes are separated from one another by LiO₄ square planes. In light of the meager X-ray scattering factors of Li and O, relative to La and Au, we report here a neutron powder diffraction study of La₄LiAuO₈, definitively confirming the structure. To our knowledge, this is the first reported neutron diffraction study of any stoichiometric oxide compound of gold. X-N maps, which make use of nuclear positions obtained from Rietveld refinement of time-of-flight neutron diffraction data and electron densities obtained from synchrotron X-ray powder diffraction data, point to the highly covalent nature of the Au-O bonding in La₄LiAuO₈. This is in good agreement with charge densities and Bader charges obtained from full density functional relaxation of the structure.     

铌酸盐 Ba5YTi3 Nb7 O30的结构与介电性能

在BaO-TiO2-Mb2O5体系中通过掺Y3－合成了铌酸盐Ba5YTi3Nb7O30 ,采用粉晶X射线衍射（XRD）对其结构进行了分析,并测试了其烧结体的介电特性,结果表明,在室温下Ba4YT3 Nb7O30属于填满型四方钨青铜结构,晶胞参数,a=1.24332(2)nm,c=0.39453(1)nm,α=β=γ＝90度,Ba5TYi3Nb7O30在100度从铁电相转变为顺电相。     

The Ternary Compounds Pd13ln5.25Sb3.75 and Pdln1.26Sb0.74: Crystal Structure and Electronic Structure Calculations

The new ternary compound Pd₁₃In_5.25Sb_3.75 was found. Its crystal structure was determined using a CCD diffractometer at room temperature. Evaluations and refinements finally yielded a C-centered monoclinic structure (space group, C2/c; Pearson symbol, mC88, Z=4) with a=15.189(2) Å, b=8.799(1) Å, c=13.602(2) Å, and β=123.83(1)°. For the entire data set of 3706 independent reflections residual values are R=0.0461 and R_w=0.0789. The structure was found to be isotypic to Pd₁₃Pb₉ with In and Sb on the Pb sites. The existence of a further ternary compound, which was already described as Pd₃In₄Sb₂, could be confirmed. Its composition range was determined by EPMA to be PdIn_1.2-1.3Sb_0.8-0.7. It does not melt congruently and we were not able to find suitable single crystals. However, we were able to prepare the pure ternary compound in order to perform X-ray powder diffraction using a Guinier image plate technique. The entire diffraction spectrum was refined by full profile Rietveld method using the program Fullprof. The α-PdSn₂ structure type (space group, I4₁/acd; Pearson symbol, t148, Z=16), proposed for this compound, was confirmed and the lattice parameters are a=6.4350(1) Å and c=24.3638(3) Å. The residual values were R_p=5.34 and R_wp=6.70. The tetragonal PdSn₂ structure type is a mixed variant of the CaF₂ type and the CuAl₂ type structure. Also in this ternary compound we assumed a random contribution of In and Sb over the 16e and 16f positions. The electronic structures of both compounds were investigated by extended Hückel calculations. Crystal orbital overlap populations show extended bonding interactions between the main group elements. The bonding interactions of the main group elements are almost optimized at the experimentally observed In/Sb ratio of the ternary compound. The In/Sb ratio in Pd₁₃In_5.25Sb_3.75 can thus be rationalized on the basis of the electronic structure.     

Structural study of copper-nickel aluminate (CuxNi1−xAl2O4) spinels

CuAl₂O₄, NiAl₂O₄, and three ternary spinels Cu_xNi_1?xAl₂O₃ have been prepared, in polycrystalline form, by solid-state reaction of mixtures of CuO, NiO, and Al₂O₃ at 1223 K. X-Ray powder diffractometry, coupled with adequate computational methods, allowed determination of the unit-cell length, oxygen positional parameter, and cation distribution for each compound. Interdependence of these structural parameters is closely analyzed on the ternary oxide spinels. The one-electron difference between the Cu²⁺ and Ni²⁺ ions was found to be enough to render them distinguishable by X-ray powder diffraction.     

Solid-phase equilibria and thermodynamic properties of the Tl2Se-As2Se3-Se system

The Tl₂Se-As₂Se₃-Se system in the equilibrium crystalline state was studied by differential thermal analysis, X-ray powder diffraction, and measurements of emf relative to a thallium electrode within the temperature range 300–400 K. An isothermal section of the phase diagram at 300 K was constructed. The formation of ternary compounds Tl₃AsSe₄, TlAsSe₂, and Tl₃AsSe₃ was confirmed, and the locations of their phase regions were determined. From the emf measurement data, the partial molar functions of thallium in alloys, the standard thermodynamic functions of formation, and the standard entropies of the above ternary compounds were calculated.     

Syntheses，Structures and Properties of Some New Composition Perovskite Compounds：Sr_（0．6）Bi_（0．4）FeO_（2．7），Sr_（1－x）Bi_xFeO_（3－y） and Ba_（1．5）Pt_（0．5）Mn_2O_6

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锂离子电池正极材料LiMn2O4的合成与晶体结构（英）

Spinel LiMn₂O₄ powders were prepared using two-step synthesis method consisting of solid-state reaction method and citrate modified sol-gel method. The effects of the calcination temperature and the Li/Mn ratio of raw materials were studied on the physicochemical and electrochemical properties of the spinel LiMn₂O₄ powders, such as crystallinity, lattice constant and density. The title compound was characterized by powder X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Polycrystalline LiMn₂O₄ powers calcined at 750 ℃ were found to be composed of very uniformly-sized microcrystal with an average particle size of 300 nm. The improvement in electrochemical properties was mainly attributed to the process of re-grinding by absolute alcohol.     

Crystal structures and magnetic properties of mixed iridium-ruthenium triple perovskites. 1. Ba3MRuIrO9 (M=Lanthanide, Y)

Crystal structures and magnetic properties of Ba3MRuIrO9 (M=lanthanides, Y) were investigated. Rietveld refinements using powder diffraction data indicate that all the compounds crystallize in the 6H-BaTiO3 structure type in space group P63/mmc. Magnetic susceptibility measurements were carried out on each compound. Effective magnetic moments were smaller than values estimated using spin-only moments, which indicate the presence of spin-orbit coupling and strong interactions in the [(Ru0.5Ir0.5)2O9] face-sharing octahedra that contain a disordered mixture of Ru and Ir on a single crystallographic site. Magnetic anomalies were observed for the compounds Ba3PrRuIrO9, Ba3TbRuIrO9, and Ba3NdRuIrO9 at 3.5, 13, and 8 K, respectively.     

钡铁氧体纳米复合材料的制备及其微波吸收性能

采用聚乙二醇(PEG)凝胶法制备了Ba(Zn1－xCox)2Fe16O27复合氧化物纳米材料，用X射线衍射分析对产物进行了表征.将制得的材料与传统的微波吸收剂铁粉结合起来，制成双层复合的吸波涂层，进行测试.实验结果表明，所制材料对微波具有良好的吸收性能.并进一步对纳米复合材料的吸波机理进行了探讨.     

一个新的锡硫配合物(Et4N)[Sn2I6SOCH3]的合成、结构及量子化学研究

以锡粉、碘粉、硫粉和四乙基碘化铵为原料,在无水甲醇中,通过溶剂热反应合成了1个新的锡髧配合物(Et4N)[Sn2I6SOCH3]。对其进行了X-射线单晶衍射、元素分析的表征以及量子化学研究。该化合物属于单斜晶系,空间群为P21,a=0.728 65 nm,b=1.836 81 nm,c=1.016 25 nm,β=107.209°,V=1.299 2 nm3,Z=2。结构分析表明,化合物中的阴离子[Sn2I6SOCH3]-是由2个共边的SnSI3O三角双锥组成。电荷分布和前沿轨道的组成充分证实了配合物中配位键的存在。     

镧系(Nd3+、Ho3+、Er3+)与1-苯基-3-甲基-4-三氟乙酰基吡唑酮-5和二安替吡啉甲烷三元配合物的研究

用分光光度法对镧系离子(Nd~(3+),Ho~(3+),Er~(3+))与1-苯基-3-甲基-4-三氟乙酰基吡唑酮-5(PMTFP)和二安替吡啉甲烷(DAM)水-乙醇溶液体系的研究以及对制备钕的相应配合物的元素分析证实:形成的三元配合物的的组成比为Ln~(3+):PMTFP:DAM=1:3:1。计算了相应配合物超灵敏跃迁的光吸收振子强度,并图示了它们之间的线性关系。研究了固态钕的三元配合物的红外吸收光谱和热稳定性。 镧系离子(Ln~(3+))同DAM和1-苯基-3-甲基-4-苯甲酰基吡唑酮-5(PMBP)等β-二酮以及Ln~(3+)与PMTFP和三辛基磷氧化物(TOPO)的三元配合物的研究已有报导。本文报导了Ln~(3+)(Nd~(3+)、Ho~(3+)、Er~(3+))-PMTFP-DAM体系中的超灵敏跃迁现象与配位作用,以及Nd(Ⅲ)-PMTFP-DAM配合物的合成、组成和性质。     

Subsolidus equilibria in the system BaO.TiO2.Al2O3

The subsolidus phase equilibrium relations in the system BaO.TiO₂.Al₂O₃ have been investigated using conventional solid state reaction techniques and X-ray powder diffraction. The existence of three known ternary compounds, BaTi₅Al₂O₁₄, BaTiAl₆O₁₂, and Ba₃TiAl₁₀O₂₀, was confirmed and their stability relations were studied. Various tie-lines existing between the ternary compounds and the binary titanates and aluminates of barium were established and a subsolidus phase diagram showing the phase assemblages compatible at 1200°C is presented.     

系列新铌酸盐A6n+[Bxm+Nb12-x]Nb4O42的合成及粉晶X射线衍射分析

０IntroductionNiobateshavemanykindsofstructures．TheseareperovskitetypeABO３（KNbO３），tungstenbronzetypeANb２O６（Ba２NaNb５O１５），chainandlamellartypes犤１～１１犦．SincethenewcompoundK６CrNb１５O４２withakindoftunnelstructureinthepotassiumniobatesystemwasfoundinourlaboratoryforthefirsttime犤１２犦，wehavesynthesizedaseriesofcompoundswiththesamestructure，forexample，K６FeNb１５O４２，K６Ni０．６７Nb１５．３３O４２，Ba６Cr４Nb１２O４２andBa６Ni２．６７Nb１３．３３O４２etc．T…     

New ternary and quaternary barium nitride halides; synthesis and crystal chemistry

New ternary and quaternary nitride halides, Ba(2)N(X,X') (X = F, Cl, Br; X' = Br, I), have been synthesized from the high temperature reactions of barium subnitride with the respective barium halides under an inert atmosphere. The former include the first fully characterized barium nitride halides for X other than F, and the latter are the first examples of barium nitride mixed halides. The variation in structure with composition has been investigated by powder X-ray and powder neutron diffraction techniques. The heavier ternary and quaternary nitride halides (X, X' = Cl, Br, I) crystallize in the hexagonal space group R3m, with the anti-α-NaFeO(2) structure. Ba(2)NF forms with both an anti-α-NaFeO(2) structure, in which N(3-) and F(-) are ordered and an anion-disordered simple rock salt structure. The hexagonal polymorph of Ba(2)NF is the only example to date of a nitride fluoride adopting this layered structure. Both the ternary and the quaternary compounds display very weak, temperature independent paramagnetism.