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采用MoO3、V2O5和PbF2为助熔剂,在坩埚下降法生长炉中研究了ZnO的析晶行为和晶体生长.结果表明,对于M0O3-ZnO高温溶液体系,下降或降温过程中首先析出ZnO,但随着温度继续下降,析出了ZnMoO4晶体;对于V2O5-ZnO体系,通气速率为1.5 L/min时底部出现5mm厚的绿色ZnO多晶,无法获得单晶;对于PbF2-ZnO体系,自发成核获得了10 mm × 10 mm×0.7 mm的ZnO晶体薄片,在2 L/rain通气速率下诱导成核生长出φ25mm×5 mm的ZnO单晶. 相似文献
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紫外非线性光学晶体三硼酸铯的生长和性能 总被引:3,自引:3,他引:0
采用泡生法和提拉法生长出三硼酸铯(化学式CsB3O5,简称CBO)晶体,研究了晶体生长工艺条件及晶体生长形态.泡生法生长的CBO晶体的尺寸为40mm×25mm×25mm;生长过程中晶体转速为10~20r/min,降温速率为0.1~0.2℃/d.用提拉法生长出20mm×30mm的CBO晶体;生长过程中液面温度梯度为60℃/cm,提拉速度为8mm/d.在生长过程中Cs2O的挥发速度大于B2O3的挥发速度.CBO单晶的晶面由[011]斜方柱和[010]斜方柱单形组成,属于[011]单形是4个较大的面,属于[101]单形是4个较小的三角形晶面.CBO在紫外波段具有较大的有效非线性光学系数.利用CBO进行Nd∶YAG激光和频获得了高转换率的波长355nm及266nm相干光输出. 相似文献
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通过选择合适的原料配比(Li2O 48.6mol;,Nb2O5 51.4mol;),控制固液界面处的温度梯度为20~40℃/cm,晶体生长速度为0.6~1.5mm/h,采用密闭条件下的坩埚下降法工艺成功地生长出了具有良好光学均匀性的完整LiNbO3单晶.用X射线粉末衍射表征获得的LiNbO3晶相,讨论了若干工艺条件对晶体组分与质量的影响.测定了未密闭条件下生长的LiNbO3晶体不同部位样品的紫外可见光谱,发现其吸收边沿生长方向发生红移,并讨论了产生此现象的原因. 相似文献
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快速生长大尺寸KDP单晶 总被引:3,自引:2,他引:1
WANG Bo 许心光 WANG Sheng-lai 孙洵 GU Qing-tian 李毅平 FANG Chang-shui 梁晓亮 FENG Yu 《人工晶体学报》2008,37(4):1042-1043
用传统降温法生长了大尺寸KDP单晶,生长速度一般在1~2 mm/d,周期长,风险大.本文采用"点籽晶"快速生长法多次成功生长出了200 mm级的大尺寸KDP单晶,晶体生长速度达到20 mm/d,晶体生长正常.同时,摇摆曲线表明快速生长的晶体有着很好的结构完整性. 相似文献
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本文报道了KI单晶在非真空密闭条件下的坩埚下降法生长.以经充分干燥的高纯KI多晶为原料,将KI多晶料密封于套层铂坩埚中,添加少量活性碳粉末,可避免碘化物熔体的氧化与挥发,从而在非真空条件下实现KI单晶的坩埚下降法生长.在晶体生长过程中,炉体温度调节于750~770 ℃,固液界面温度梯度为30~40 ℃/cm,坩埚下降速率控制为1~2 mm/h,成功生长出尺寸为φ25 mm×50 mm的透明完整KI单晶.采用XRD、DTA-TG、透射光谱、荧光光谱对所获KI单晶进行了测试表征,结果表明该单晶具有良好的光学均匀性,在450~2500 nm波长范围的光学透过率达70;以上,其光学吸收边位于280 nm左右;在266 nm脉冲光激发下,该单晶具有397 nm峰值波长的荧光发射. 相似文献
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本文报道了坩埚下降法生长大尺寸白宝石单晶.我们使用大尺寸异型钼坩埚,高纯氧化铝原料,在中性气氛下,结晶区温度梯度为25~30℃/cm,生长速度为0.8~1.8mm/h,生长方向选C面[0001]取向,成功生长出直径80mm,高度90mm的完整透明的白宝石单晶,在300~5500nm范围内,其光学透过率均在80;以上.实验中采用高性能保温材料使生长过程所需加热功率由20kW下降到15kW,能耗降低达25;;采用双回路加热系统,提高温场稳定性,缩短晶体生长周期.晶体的主要缺陷为顶部(生长后期)出现有5~10mm淡黄色色带(经在氧化性气氛中退火后已消除)和底部有细丝状条纹. 相似文献
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A. L. Bingham J. E. Drake C. Gurnani M. B. Hursthouse M. E. Light M. Nirwan R. Ratnani 《Journal of chemical crystallography》2006,36(10):627-630
Triethyl ammonium Salt of O,O′-bis(p-tolyl)dithiophosphate and O,O′-bis(m-tolyl)dithiophosphate have been obtained by reaction of p- and m-cresol, respectively with P2S5 in toluene and have been characterized by elemental analysis, IR, 1H and 31P NMR spectroscopy. The molecular structure of O,O′-bis(p-tolyl)dithiophosphate has been determined. Crystal data: [Et3NH]+[(4-MeC6H4O)2PS2]−: Monoclinic, P21/c, a=15.2441(9) ?, b=10.415(2) ?, c=3.9726(9) ?, β=91.709(7)°, V=2217.5(1) ?−3, Z=4.Supplementary materials Additional material available from the Cambridge Crystallographic Data Centre (CCDC no. 600927 for [Et3NH]+[(4-MeC6H4O)2PS2]− comprises the final atomic coordinates for all atoms, thermal parameters, and a complete listing of bond distances and angles. Copies of this information may be obtained free of charge on application to The Director, 12 Union Road, Cambridge CB2 2EZ, UK (fax: +44-1223-336033; email: deposit@ccdc.cam.ac.uk or www:http://www.ccdc.cam.ac.uk). 相似文献
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We perform first-principles coexistence simulations of the low-density and the high-density phases of supercooled liquid silicon and find a negative slope for the coexisting line in the temperature-pressure plane. Electron density maps and electron-localization function plots of the two phases of silicon show marked differences. The calculated differences suggest more localized electrons in the low-density liquid compared to the high-density liquid, coming from an increased population of covalent bonds, which further explain the calculated negative slope in the two phase coexistence regime. This is consistent with the presence of a pseudo-gap in low-density liquid silicon, absent in the high-density liquid which shows a metallic behavior. 相似文献
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Tosha Barclay Wallace Cordes Fu-May Yang Shaw-Tao Lin 《Journal of chemical crystallography》1997,27(6):359-362
Structures of both thecis andtrans isomers of dithiahexahydro[3.3]metacyclophane, ?C6H4?CH2SCH2?C6H10?CH2SCH2?, have been determined, wherecis andtrans refer to the attachments to the cyclohexane ring. Thecis form crystallizes in the monoclinic space groupP21/c witha=8.4299(11)Å,b=21.772(2)Å,c=8.9724(13)Å, β=116.574(11)o, andZ=4. Thetrans isomer packs into the monoclinic space groupP21 witha=8.159(16)Å,b=10.185(5)Å,c=9.558(2)Å, β=112.435(18)o, andZ=2. The cyclohexane ring of thecis isomer is in the chair conformation, while the cyclohexane of thetrans isomer is found in a twisted boat conformation. 相似文献
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以表面活性剂CTAB和SDBS为化学添加剂,采用化学共沉淀法对碳酸锶晶体的生长形态进行调控,成功地制备出了实心的树枝状和花瓣为空心的花状碳酸锶粉体,并用X射线衍射(XRD)、扫描电子显微镜(SEM)和傅里叶变换红外光谱(FT-IR)等分析手段对样品进行了表征;最后重点对化学添加剂可能产生的影响机理进行了初步的探讨.结果表明,CTAB和SDBS在晶体生长的过程中能起到显著的影响作用,两者对粒子分散性能的作用效果相反,而且后者对晶体(013)和(213)晶面表面能降低的贡献明显大于前者. 相似文献
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Lin Zhu Karl Seff Thomas Witzke Lutz Nasdala 《Journal of chemical crystallography》1997,27(5):325-329
The structure of Zn4Na(OH)6SO4Cl·6H2O, a secondary mineral from Hettstedt, Germany, was determined by single-crystal X-ray diffraction. The crystals are hexagonal,a=8.413(8),c=13.095(24) Å, space group $P\bar 3$ , Z=2. The structure was refined to R=0.0554 and Rw=0.0903 for 970 reflections with I≥3σ(I). The structure can be described as zinc hydroxide layers perpendicular toc, from which sulfates and chlorides extend. The layers are held together by a system of hydrogen bonds involving hexaaquo Na+ ions which occupy the interlayer space. 相似文献
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Jerry P. Jasinski Ray J. Butcher Anil N. Mayekar H. S. Yathirajan B. Narayana B. K. Sarojini 《Journal of chemical crystallography》2009,39(10):761-765
Abstract The title compound, C18H18BrN3O3S, a derivative of 1,3,4-oxadiazole, crystallizes in the triclinic space group P-1 with unit cell parameters a = 6.8731(3), b = 8.9994(4), c = 15.7099(6) ?, α = 92.779(3)°, β = 130.575(3)°, γ = 107.868(4)°, Z = 2. The dihedral angle between the mean planes of the planar naphthyl and morpholine (chair) rings with the planar oxadiazol
ring is 50.1(8) and 76.8(6)°, respectively. The planar naphthyl ring is twisted 52.2(5)° with the mean plane of the morpholine
ring. A group of four intermolecular close contacts are observed between a bromine atom and hydrogen atoms from the closely
packed naphthyl, morpholine and oxy–methyl groups in the unit cell. These molecular interactions in concert with an additional
series of π–π stacking interactions that occur between the center of gravity of the two 6-membered rings of the naphthalene
group influence the twist angles of each of these three groups. A MOPAC AM1 calculation of the conformation energy of the
crystal structure [226.0128(9) kcal] compared to that of the minimum energy structure after geometry optimization [29.9744(1) kcal]
reveals a significantly reduced value. The twist angles of the three groups above also change after the AM1 calculation giving
support to the influence of both intermolecular C–H···Br short-range interactions and Cg π–π stacking interactions on these
angles which therefore play a role in stabilizing crystal packing.
Graphical Abstract Crystal structure of 5-{[(6-bromonaphthalen-2-yl)oxy]methyl}-3-(morpholin-4-ylmethyl)-1,3,4-oxadiazole-2(3H)-thione, C18H18BrN3O3S, is reported and its geometric and packing parameters described and compared to a MOPAC computational calculation.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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Zun-Ting Zhang Xue-Ling Zhang Bo-Lun Yang Yao-Dong Zhang 《Journal of chemical crystallography》2006,36(7):407-411
Irisolidone (5,7-dihydroxy-6,4′-dimethoxyisoflavone) was isolated from the flowers of Pueraia lobata and its crystal structure was examined by X-ray single crystal diffraction. The crystal structure of irisolidone is monoclinic, space group P21/c with a = 15.491(9) ?, b = 7.895(4) ?, c = 13.321(7) ?, β = 110.546(9)° and Z = 4. Hydrogen bonding and aromatic π–π stacking assemble the title compound into a three-dimensional networking structure. 相似文献
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Maurizio Remelli Fernando Pulidori Remo Guerrini Valerio Bertolasi 《Journal of chemical crystallography》1997,27(9):507-513
The natural amino acid L-Spinacine (4,5,6,7-tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid) has been synthesized following a new pathway which gives a chemically and optically pure product with an excellent yield. The crystal structures of a synthetic intermediate, Nπ-hydroxymethyl-spinacine, and a spinacine derivative, Nα-methyl-spinaceamine, have been investigated through X-ray diffraction: Spi(πMeOH)·H2O, monoclinicP2 i,a=8.571(1),b=6.682(1),c=8.588(1) Å, and β=94.67(1)o. Spm(αMe)·2HCl·H2O, triclinicP l,a=7.492(4),b=10.799(3),c=7.040(2) Å, α=91.88(2), β=98.36(3) and γ=73.34(3)o. Spi(πMeOH) crystallizes with a water molecule and displays a zwitterionic character. The carboxylate group is in equatorial position and forms a short electrostatic interaction of 2.618(2) Å between one of its oxygens and the protonated nitrogen of the tetrahydropyridine ring. The crystal packing is assured by strong O?H???O, O?H???N, N?H???N intermolecular hydrogen bonds and C?H???O close contacts. The biprotonated compounds Spm(αMe) crystallizes with two Cl? anions and a water molecule. The positive charge on the imidazole ring is delocalized on the conjugated moiety N=C?N. The crystal is built up by clusters formed by two biprotonated Spm(αMe) molecules, four Cl? anions and two water molecules linked together by hydrogen bonds. 相似文献
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Maurizio Remelli Fernando Pulidori Remo Guerrini Valerio Bertolasi 《Journal of chemical crystallography》1991,27(9):507-513
The natural amino acid L-Spinacine (4,5,6,7-tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid) has been synthesized following a new pathway which gives a chemically and optically pure product
with an excellent yield. The crystal structures of a synthetic intermediate, Nπ-hydroxymethyl-spinacine, and a spinacine derivative, Nα-methyl-spinaceamine, have been investigated through X-ray diffraction: Spi(πMeOH)·H2O, monoclinicP2
i,a=8.571(1),b=6.682(1),c=8.588(1) ?, and β=94.67(1)o. Spm(αMe)·2HCl·H2O, triclinicP
l,a=7.492(4),b=10.799(3),c=7.040(2) ?, α=91.88(2), β=98.36(3) and γ=73.34(3)o. Spi(πMeOH) crystallizes with a water molecule and displays a zwitterionic character. The carboxylate group is in equatorial
position and forms a short electrostatic interaction of 2.618(2) ? between one of its oxygens and the protonated nitrogen
of the tetrahydropyridine ring. The crystal packing is assured by strong O−H−−−O, O−H−−−N, N−H−−−N intermolecular hydrogen
bonds and C−H−−−O close contacts. The biprotonated compounds Spm(αMe) crystallizes with two Cl− anions and a water molecule. The positive charge on the imidazole ring is delocalized on the conjugated moiety N=C−N. The
crystal is built up by clusters formed by two biprotonated Spm(αMe) molecules, four Cl− anions and two water molecules linked together by hydrogen bonds. 相似文献