Y_(0.145)Gd_(0.855)Ca_4O(BO_3)_3混晶的晶体生长和压电、热膨胀性能（英文）

利用提拉法成功生长出了Y_(0.145)Gd_(0.855)Ca_4O(BO_3)_3(Y_(0.145)Gd_(0.855)CO_B)混晶。对其压电系数和热膨胀系数进行了测量,测得压电系数d26为9 pC/N,计算得到热膨胀系数α11,α22α33分别为12.97×10-6/℃,5.94×10-6/℃,8.03×10-6/℃。通过与YCa4O(BO_3)_3和GdC a_4O(BO_3)_3晶体的对比,分析了Re~(3+)半径和Re~(3+)、Ca~(2+)的无序分布对于Y0.145Gd0.855COB混晶的压电性能和热膨胀性能的影响。     

Nd3+∶Gd0.2Y0.8Al3(BO3)4激光晶体的研究

测定了Nd3+∶Gd 0.2Y0.8Al3(BO3)4-K2MO3O10-B2O3生长体系的生长温度曲线,生长出尺寸达32mm的Nd3+∶Gd0.2Y0.8Al3(BO3)4激光晶体,并从中切割出尺寸为4mm×5mm×6mm的优质激光器件,采用钛宝石模拟LD泵浦,在1.06μm处得到48mW的激光输出,激光阈值17mW,光-光转换效率为20%.     

Yb3+: Sr3Gd(BO3)3激光晶体的生长和光谱特性

采用提拉法(Czochralski)生长出了掺Yb3+的Sr3Gd(BO3)3晶体,晶体尺寸达到:25 mm×30 mm.测量了Yb3+: Sr3Gd(BO3)3晶体的吸收谱、荧光谱以及荧光寿命.Yb3+: Sr3Gd(BO3)3晶体在975 nm有一半峰宽为7 nm的强吸收峰,π谱的吸收跃迁截面σa=7.28×10-21 cm2,在1040 nm的发射跃迁截面σe=1.43×10-21 cm2.辐射寿命为1.46 ms, Yb3+浓度为13 at;时的荧光寿命f=2.14 ms,Yb3+浓度为0.5 at;时的荧光寿命f=1.21 ms.     

双掺Er~(3+)/Yb~(3+)∶Sr_3La_2(BO_3)_4晶体的生长与光谱特性

采用提拉法生长了尺寸为20mm×30mm的Er3+/Yb3+∶Sr3La2(BO3)4晶体,研究了Er3+/Yb3+∶Sr3La2(BO3)4晶体的吸收光谱和荧光光谱。根据Judd-Ofelt理论分析并计算了辐射跃迁几率、辐射寿命、荧光分支比等光谱参数,获得的唯象参数为:Ω2=15.59×10-20cm2,Ω4=2.25×10-20cm2,Ω6=1.49×10-20cm2。在Er3+/Yb3+∶Sr3La2(BO3)4晶体中Er3+在1533nm处发射跃迁截面为7.88×10-21cm2,Er3+的4I13/2→4I15/2能级跃迁的荧光寿命和辐射寿命分别为0.728ms和4.24ms,结果表明Yb3+对Er3+有敏化作用,提高了对泵浦光的吸收能力,Er3+/Yb3+∶Sr3La2(BO3)4晶体可望作为1.55μm波段的一种有潜力的激光材料。     

Nd~(3+)掺杂的Sr_3Y_2(BO_3)_4晶体光谱特性研究

采用提拉法生长出25mm×40mm的Nd3+∶Sr3Y2(BO3)4晶体,测试了该晶体的吸收光谱、荧光光谱及荧光寿命。结果表明:Nd3+∶Sr3Y2(BO3)4晶体在807nm附近有最强的吸收峰,其半峰宽(FWHM)为16nm,宽的吸收半峰宽适合于LD泵浦;从荧光光谱得到发射波长分别为910.8nm、1065.2nm和1399nm的荧光峰。根据吸收和荧光光谱,计算了晶体的吸收截面和发射截面。采用J-O理论计算了Nd3+在Sr3Y2(BO3)4中的强度参数、各能级的振子强度、自发辐射几率、荧光分支比等参数。计算结果表明,其强度参数Ω2=3.816×10-20cm2,Ω4=10.895×10-20cm2,Ω6=12.44×10-20cm2,辐射寿命为104μs,量子效率η=49.7%,荧光分支比β1(0.88μm)=0.429,β2(1.06μm)=0.461,β3(1.35μm)=0.107,β4(1.88μm)=0.003。     

非线性光学晶体Na3La9O3(BO3)8的生长研究

以Na3CO3和H3BO3为助熔剂,Na3CO3和H3BO3摩尔比为7/6,熔质Na3La9O3(BO3)8和助熔剂摩尔比为1/10～1/14,采用顶部籽晶生长方法,生长Na3La9O3(BO3)8晶体,晶体尺寸为30×18×8mm3.本文讨论了籽晶方向对Na3La9O3(BO3)8晶体生长的影响,(100)方向比(001)方向更有利于晶体生长.     

Yb0.005Y0.708Lu0.287VO4混晶的生长和材料性质

采用提拉法生长出Ybb0.005Y0.708Lu0.287VO4晶体.在室温下,对Yb0.005Y0.708Lu0.287VO4晶体进行了XRPD测试,计算了晶格常数(a=b=0.7091 nm,c=0.6273 nm)和密度(4.826 g/cm3).对混晶的(100)面进行了腐蚀,腐蚀坑呈四棱锥形状.平均线膨胀系数α1=1.285×10-6 K-1,α3=7.030 ×10-6 K-1,温度在330.15 K和570.15 K之间变化时,比热为0.494 ～0.617 J/g·K.     

Er3+,Yb3+:YAl3(BO3)4晶体的光谱性质研究

采用助熔剂法生长了Er3+,Yb3+共掺的YAl3(BO3)4晶体,测量了晶体的室温吸收谱.由此吸收谱,根据JuddOfelt理论计算了Er3+在Er3+,Yb3+:YAl3(BO3)4晶体中的强度参数、自发辐射几率、积分发射截面等参数.强度参数为Ω2=2.44×10-20cm2、Ω4=2.00×10-20cm2、Ω6=6.10×10-20cm2.研究了晶体的荧光特性,并在976nm激光泵浦下得到了上转换绿色荧光.     

Gd2O2S∶Yb3+,Er3+纳米粉体的水热-还原法制备及其上转换发光性能研究

以Gd2 O3,Yb2 O3,Er2 O3,HNO3,CO(NH2)2和C12H25SO4Na为实验原料,通过水热-还原法制备了yb3+和Er3+共掺杂的Gd2O2S∶ Yb3+,Er3+纳米粉体.通过傅里叶变换红外光谱(FT-IR)、X射线衍射(XRD)、透射电子显微镜(TEM)、选区电子衍射(SAED)和上转换发射光谱(UPL)分析手段对合成产物的结构、形貌和上转换发光性能进行了表征.结果表明,Gd3+∶ CO(NH2)2∶ SO2-=2∶ 1∶x的摩尔比对合成产物的结构有显著的影响,当x=1.0时合成的前驱体在90; Ar+ 10; H2混合气氛下800℃煅烧2h可获得单相Gd2 O2S纳米粉体,该Gd2 O2S粉体颗粒呈现近球形,平均颗粒尺寸约30 nm,具有一定的团聚特征.上转换发射光谱表明在980 nm红外光激发下,Gd2 O2S∶Yb3+,Er3+纳米粉体的上转换光谱图的主次发射峰分别位于671 nm和548 nm,归属于Er3+的4 F9/2 →4I15/2和4S3/2→4I15/2跃迁.Er3+的猝灭浓度为5;,Gd2 O2S∶Yb3+,Er3+的发光机制为双光子模型.     

Ce0.8Sm0.2O2-δ-Ca3Co2O6-δ双相材料的制备及其透氧性能研究

采用共沉淀法和柠檬酸络合法分别制备了Ce0.8Sm0.2O2-δ和Ca3Co2O6-δ粉体,随后通过固相烧结法获得了致密Ce0.8Sm0.2O2-δ-Ca3Co2O6-δ双相透氧膜材料.分别通过X射线衍射(XRD)和场发射扫描电子显微镜(FESEM)对样品的晶体结构和形貌进行了表征.系统研究了双相比例对样品的热膨胀系数、电子电导率和透氧率的影响.实验结果表明该双相材料具有优异的化学稳定性,1150 ℃烧结6 h可以获得致密双相膜.双相膜具有较低的热膨胀系数,为13.47×10-6 ~14.23×10-6 K-1,接近电解质的热膨胀系数值.当离子导电相添加量由40wt;增加到80wt;,双相膜的电导率随之降低,而透氧率随之增大,950 ℃时,质量比为8∶2的Ce0.8Sm0.2O2-δ-Ca3Co2O6-δ双相膜的透氧率达到了2.80×10-7 mol·cm-2·s-1,表明该材料可以作为一种新型双相透氧膜材料用于氧分离.     

The structures of three trimethylarsine-boron trihalide adducts: (CH3)3AsBCl3, (CH3)3AsBBr3, and (CH3)3AsBI3

An X-ray structure analysis of three trimethylarsine-boron trihalide adducts has been undertaken. Crystals of (CH₃)₃AsBCl₃ and (CH₃)₃AsBBr₃ are monoclinic with space groupP2₁/m (No. 11) withZ=2 while those of (CH₃)₃AsBI₃ are orthorhombic with space groupPnma (No. 62) withZ=4. For (CH₃)₃AsBCl₃,a=6.497(3) Å,b=10.735(3) Å,c=7.070(2) Å,=111.8(3)°,V=458.4(3) ų,R=0.0343. For (CH₃)₃AsBBr₃,a=6.672(4) Å,b=11.135(7) Å,c=7.199(4) Å,=111.5(1)°,V=497.7(5) ų,R=0.0434. For (CH₃)₃ÅsBI₃,a=13.113(7) Å,b=11.733(5) Å,c=7.387(3) Å,V=1136.5(5) ų,R=0.0329. The As-B bond lengths are 2.065(6), 2.04(1), and 2.03(1) Å, respectively, for the chloride, bromide, and iodide. These and other structural parameters are discussed with reference to previous predictions based on vibrational spectra and previous structural studies on the trimethyl-phosphine and trimethylamine adducts.     

Infrared vibrational Modes in Tl3SbS3, Tl3AsS3, and Tl3AsSe3 crystals

Reflectivity spectra of Tl₃SbS₃, Tl₃AsS₃, and Tl₃AsSe₃ crystals have been investigated in the wave number range 50–600 cm⁻¹ for the polarizations E∥c and E⟂c. The fundamental phonon parameters, the limiting dielectric constants ϵ_∞ and ϵ_S and the reflectivity spectra contours have been calculated by using classical dispersion relations for both E∥c and E⟂c configurations. The Szigeti effective charges and the relative ion charges of As, Tl, Sb, Se, S anions and cations have been calculated in dependence on the incident light polarization.     

Crystal and molecular structures of three trimethylamine-boron halide adducts: (CH3)3NBCl3, (CH3)3NBBr3, and (CH3)3NBI3

X-ray diffraction data from single crystals of the trimethylamine complexes of the three boron halides, BCl₃, BBr₃, and BI₃, lead to aP2₁/m monoclinic cell containing two molecules for each complex. The unit cell dimensions area = 6·68(1),b = 10·247(3),c = 6·502(6) Å, =116·2(1)° (chloro);a = 6·86(1),b = 10·612(4),c = 6·737(6) Å, = 115·8(1)° (bromo);a = 6·92(2),b = 10·86(1),c = 7·147(6) Å, = 93·9(1)° (iodo). The structures were solved by three-dimensional sharpened Patterson functions and show only the chloro and bromo compounds to be isomorphous. Refinement of 662,718 and 954 observed reflexions for the chloro, bromo and iodo complexes, respectively, using anisotropic thermal parameters yielded conventionalR factors of 0·045, 0·087 and 0·054.The molecules are shown to possess a B—N dative bond, a staggered conformation, and effective 3m (C _3v) symmetry. Average C—N bond lengths are 1·52(1) Å for all three complexes. Boronhalogen bond lengths average 1·864(4), 2·04(2) and 2·28(2) Å, while B—N bond distances are 1·609(6), 1·60(2) and 1·58(3) Å, respectively, for the chloro through iodo compounds. Bond angles are approximately tetrahedral with the C—N—C angle decreasing by several degrees in the Cl Br I series.Based in part on a dissertation submitted by Patty H. Clippard to the Rackham School of Graduate Studies of the University of Michigan, January 1969 in partial fulfillment of the requirements of the Ph.D. Degree.     

Second harmonic generation properties of Ca3(O3C3N3)2 ‐Sr3(O3C3N3)2 solid solutions

Solid solutions of the second harmonic generation (SHG) materials Ca₃(O₃C₃N₃)₂ (CCY) and Sr₃(O₃C₃N₃)₂ (SCY) were prepared via exothermic solid state metathesis reactions from appropriate amounts of the corresponding metal chlorides and potassium cyanate at 525 °C. The change in SHG intensity caused by the successive cation substitution is reported. Differential thermal analyses are used to explore the SCY–K(OCN) phase diagram as a medium for the growth of SCY crystals.     

Crystal Growth and Spectroscopic Characterisation of BiB3O6:RE3+ (RE3+ = Pr3+, Nd3+, Gd3+, Er3+, Tm3+)

Large single crystals of optical quality of BiB₃O₆:RE³⁺ (RE³⁺ = Pr³⁺, Nd³⁺, Gd³⁺, Er³⁺, Tm³⁺) were grown from nearly stoichiometric melts using the top‐seeding growth technique to dimensions up to 12 x 12 x 18 mm³. Absorption spectra were measured in the wavelength range from 10000 cm^‐1 to 30000 cm^‐1 with an absorption spectrometer to estimate the doping concentration of RE³⁺. For the determination of the phonon energies and the quenching behaviour of the host lattice IR and Raman spectra were recorded.     

Growth and characteristic of Sr3Tb(BO3)3 crystal

A new borate single crystal of Sr₃Tb(BO₃)₃ with dimension Ф20×25 mm² has been grown by the Czochralski method. The grown crystal was characterized by DTA–TGA, FTIR and X-ray powder diffraction analysis. The results showed the crystal with [BO₃]^3? is congruently melting at 1351.35 °C which belongs to hexagonal structure. The hardness of Sr₃Tb(BO₃)₃ crystal is 422.5 VDH, and is equal to 5.0 moh. The thermal expansion coefficients were determined to be 2.08×10^?5/°C along (1 0 0) direction and 7.43×10^?6/°C along (0 0 1) direction and the transmission spectrum was measured in 320–1800 nm at room temperature. The magnetic properties of the single crystal were studied which showed its paramagnetism and magnetic anisotropy. The specific Faraday rotation of single crystal was measured at room temperature in 532, 633, and 1064 nm wavelength. The Verdet constants and magneto-optical figures of merit were investigated. The primary emphasis is laid to explore a new magneto-optical material, all the magneto-optical properties of Sr₃Tb(BO₃)₃ are comparing to the ones of TGG.     

Growth and magnetic‐optical properties of Sr3Gd(BO3)3 and Sr3TbxGd1‐x(BO3)3 single crystals

Single crystals of Sr₃Gd(BO₃)₃ (SGB) and Sr₃Tb_xGd_1‐x(BO₃)₃ (TSGB) with dimension Ø 20 mm×20 mm have been grown by Czochralski method. The grown crystals were characterized by X‐ray powder diffraction analysis which showed the crystals belong to hexagonal structure with lattice parameters of a=b=1.254 nm, c=0.926 nm (SGB) and a=b=1.253 nm, c=0.925 nm (TSGB). In TSGB, x=17.7% was obtained by X‐ray fluorometry which showed the segregation coefficient of Tb is closed to 1. The transmission spectrum was measured, which indicated the crystals have high transmittance in 400‐1100 nm region. The Faraday rotation of single crystals at 532 nm wavelength was measured at room temperature. Finally, the Verdet constants were investigated, (SGB) V=17.9 degcm^‐1T^‐1 and (TSGB) V=21.3 degcm^‐1T^‐1. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

3-Methyl-3a,4-Dihydro-3H-Thiochromeno[4,3-c]isoxazol

Abstract  The crystal structure of the title compound, C₁₁H₁₁NOS, was determined by an X-ray diffraction analysis. The compound crystallizes in the monoclinic space group P2₁/c with cell parameters a = 10.533(2) ?, b = 12.7826(19) ?, c = 7.6491(17) ?, β = 107.997(17)^°, V = 979.5(3) ?³ and Z = 4. The S containing heterocycle adopts a sofa conformation, whereas the 5-membered ring adopts an envelope conformation. The crystal packing is characterized by weak C–H···N contacts and π-stacking interactions. Graphical Abstract  The title compound, 3-methyl-3a,4-dihydro-3H-thiochromeno[4,3-c]isoxazol was synthesized by an 1,3 dipolar cycloaddition reaction and its crystal structure determined. Single crystal X-ray diffraction analysis reveals that the aromatic 6-membered ring is planar, whereas the ring containing the S atom adopts a sofa conformation and the 5-membered ring an envelope conformation. The methyl group is in an equatorial position.      

Second harmonic generation in Na3Gd2(BO3)3 crystals

Na₃Gd₂(BO₃)₃ crystals with dimensions up to 22 × 20 × 5 mm³has been grown from NaBO₂ flux by the top‐seeded solution growth (TSSG) method for the first time. Differential scanning calorimetry (DSC) result shows that Na₃Gd₂(BO₃)₃ melts incongruently. The infrared spectrum indicates that Na₃Gd₂(BO₃)₃ contains characteristic triangular [BO₃]^3– groups responsible for the nonlinear optical effect. For the as‐grown crystal, the transmittance exceeds 80% in the wavelength range of 315 nm to 2670 nm, and the UV cutoff wavelength is 207 nm. The damage threshold is 0.47 GW cm^–2 at 1064 nm. Moreover, Na₃Gd₂(BO₃)₃ crystal exhibits an optical second harmonic generation effect which is 1.3 times as large as that of KH₂PO₄ (KDP). (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)