新型杂多化合物[(CH3CH2)4N]4H3O· {Na[(HMo2O5)3(HPO4)(H2PO4)3]2}·(H2PO4)2·10H2O的水热合成与晶体结构

杂多化合物在催化、医药、材料及光化学等方面具有广泛的应用前景 [1～ 4 ] ,其中钼磷多金属氧酸盐具有优异的氧化催化性能 [5,6 ] .近年来合成的新奇结构的钼磷多金属氧酸盐中已测定结构的有含帽[7,8] 和非帽[9～ 12 ] 系列 .本文利用水热法合成了未见文献报道的结构新颖的夹心型磷钼多金属氧酸盐[( CH3CH2 ) 4N]4 H3O{Na[( HMo2 O5) 3( HPO4 ) ( H2 PO4 ) 3]2 }· ( H2 PO4 ) 2 · 1 0 H2 O,并测定了其晶体结构 .1　实验与晶体结构分析1 .1　仪器与试剂　元素 Na用美国原子吸收分光光度计测定 ;C,H和 N用 Perkin- Elmer 2 4 0…     

基于多金属氧酸盐和贵金属的纳米复合材料的研究进展

基于多金属氧酸盐和贵金属纳米粒子的纳米复合材料,既具有多金属氧酸盐(POMs)可调控的多样结构、丰富的组成、高的电荷密度及可逆的氧化还原性,又具有贵金属纳米材料良好的生物相容性、高的光学活性和催化活性等特性,这些性质使基于POMs和贵金属纳米的复合材料能够应用于催化、生物医药、生物传感等领域.本文作者主要论述近年来基于多金属氧酸盐和贵金属的纳米复合材料的合成、性质及应用的研究现状,并对其前景进行展望.     

[(HOCH2CH2)2NH2]8·[SiW12O40]2·H2O的合成、表征、晶体结构及性质

杂多金属氧酸盐;钨硅酸;二乙醇胺;[(HOCH2CH2)2NH2]8·[SiW12O40]2·H2O的合成、表征、晶体结构及性质     

Ag NPs或MWCNT掺杂SiW_(12)微米管的合成、表征及电化学性质（英文）

通过使用无模板法,在温和的水溶液条件下,以K_8[α-Si W_(11)O_(39)]为原料合成了一种MSiW_(12)微米管(M=银纳米粒子,多壁碳纳米管),并对其电化学性质进行了进一步研究.有趣的是,目前纳米材料作为掺杂剂引入多金属氧酸盐微米管中的报道还很少.详尽的对照实验表明,掺杂剂浓度对微米管生长起着关键性作用.同时,对目标化合物循环伏安性质的研究证明其具有优良的电化学性质.因此,该研究为今后提高多金属氧酸盐微纳米材料的电化学性质开辟了新途径.     

含有不同配位阳离子的四帽Keggin结构砷钼钒酸盐[Co(en)_3][Co(en)_2(H_2O)_2]_2·[Mo_4~ⅤMo_4~ⅥV_8~ⅣO_(40)(AsO_4)]的合成与结构

多金属氧酸盐在催化、医药和材料等方面的应用越来越成为无机化学研究的热点 [1～ 5] .水热合成技术在合成多核金属氧酸盐中有独特的优点 .在众多的钼钒酸盐中 ,只有几种双帽及四帽 Keggin结构被合成出来 [6～ 13 ] .本文报道一种含有不同配位阳离子的四帽 Keggin结构砷钼钒酸盐 [Co(en) 3 ]·[Co(en) 2 (H2 O) 2 ]2 · [Mo 4 Mo 4 V 8O4 0 (As O4 ) ]的合成与结构 .该化合物的结构是由不同的阳离子1个 [Co(en) 3 ]3 + 和 2个 [Co(en) 2 (H2 O) 2 ]2 + 及簇阴离子 [Mo 4 Mo 4 V 8O4 0 (As O4 ) ]5- 构成的 .[Mo8V8O4 0 (As O4 ) …     

Keggin结构纳米硅钨酸铵的室温固相合成与物性

首次以H4SiW12O40 * 22H2O和(NH4)2C2O4 * H2O为原料,室温固相反应合成出(NH4)4SiW12O40纳米微粒;用元素分析、 FTIR确定产物的组成和结构; XRD、 TEM和BET对产物的形貌、晶粒尺寸和比表面积进行了表征; TG-DTA确定了产物的稳定温区.结果表明,产物为纳米粒子,平均粒径为60 nm,比表面积为108.7 m2/g,在430℃以下具有良好的热稳定性.在固相反应中,研磨和放热反应热效应能加快反应物扩散速率和生成物成核速率,使产物粒径减小;反应物含有结晶水和生成物H2C2O4 * 2H2O,对形成小粒径的(NH4)4SiW12O40纳米粒子起关键作用.     

多金属氧酸盐的合成化学研究新进展

介绍了近几年来多金属氧酸盐(polyoxometalate,缩写为POM)在合成化学研究方面的新进展,内容包括:由水热合成方法得到的Keggin型[SiNb12O40]16-及其与[Ti2O2]4 连接构成的一维链状结构及[H2Si4Nb16O56]14-簇;Silverton型多阴离子[GdMo12O40]9-及三维网络结构;POM和过渡金属簇通过有机π共轭体系形成的杂化材料;一步法自组装合成的四核轮状的多金属钨酸盐;控制合成得到具有蛋白质尺寸的Mo368氧簇和开普勒环形山结构的多钼氧簇;用{P2W12}杂多阴离子作为建筑块合成出的含有20个Cu中心的大轮型POM;用常规方法突破“氧墙”效应,获得的第一例稳定的含有第三过渡金属元素的多金属氧酸盐;通过逐步合成法用[SiW9O34]10-作为建筑单元合成出二聚和四聚的POM化合物;合成带有均匀孔道结构,具有选择性吸附和分离混合低碳脂肪醇和低碳氰分子的三维网络结构等.     

2-巯基喹啉包裹的金纳米颗粒的制备及其电化学性质

纳米材料特有的尺寸效应、量子效应和表面效应使其具有许多异于常规材料的性质 ,在催化、生物传感器、微电子器件和磁性材料等诸多领域都有广泛的应用前景 [1] .已有专家预言 ,与纳米材料相关的技术将在新世纪经济发展中起主导作用 ,对其研究是目前科学研究中的热点 .金纳米颗粒是目前研究得最多的金属纳米材料体系 .传统的金纳米颗粒的制备方法以溶胶 -凝胶法为主 [2～ 4 ] ,所制备的金纳米颗粒的粒径较大 (一般大于 1 0 nm) ,粒径分布不均匀 ,易于团聚 ,因而限制了其应用 .为了解决上述问题 ,Brust等 [5]将硫醇化合物在金属表面的自组装…     

新的四帽Keggin结构的金属-氧簇合物[NiMo12O40H10{Ni(H2O)3}4]的水热合成与结构表征

多金属氧酸盐 (也称金属 -氧簇 )由于在催化、材料及医药等领域的应用日益广泛而备受关注 .近年来 ,一些新颖的非经典结构的化合物不断被合成出来 .如带二帽的 Keggin结构化合物 [V15O4 2 ]9- [1] ,[PV14 O4 2 ]9- [2 ] ,[As V14 O4 2 ]9- [3 ] ,[{ Mo8V7O4 2 } 2 ]14 - [4 ] ,     

Anderson-B-型多金属氧酸盐[Co(2,2′-bipy)3]H-[Al(OH)6(Mo6O18)]?5H2O的合成及晶体结构

Anderson-B-型多金属氧酸盐[Co(2;2′-bipy)3]H-[Al(OH)6(Mo6O18)]?5H2O的合成及晶体结构;Anderson结构;联吡啶;多金属氧酸盐;超分子结构     

Structural Characterizations of Spherical Octadecavanadates Encapsulating Na+, K+ or I- and Ellipsoidal Octadecamolybdate Encapsulating two Anions of SO42-

Polyoxoanions of tungsten, molybdenum, and vanadium have been the subject of interest since their wide variety of compositions, structures, and properties give rise to numerous important applications^[1]. From the NH₄VO₃/Na₂S_x (or (NH₄)₂S_x) reaction system we synthesized several spherical octadecavanadates with Na⁺,K⁺, NH₄⁺ or I encapsulated using hydrothermal method. These complexes include (NH₄)₁₁[V₁₈O₄₂(Na)]·(H₂O)₂₀ 1; (NH₄)₁₁[V₁₈O₄₂(K)]·(H₂O)₆, 2; (NH₄)₁₀(Na)[V₁₈O₄₂(Na)]·(H₂O)₂₆, 3; (NH₄)₁₁[V₁₈O₄₂(NH4]·(H₂O)₂₀, 4; and (NH₄)₂₀(I)₇[V₁₈O₄₂(I)]·(H₂O)₁₂, 5, in which the structures of 1, 2, 3, and 5 have been determined by X-ray analyses. In the analogous reaction system of (NH₄)₂MoS₄/(NH₄)₂S_x, we also obtained one ellipsoidal octadecamolybdate, (NH₄)₄[Mo₁₈O₅₄(2SO₄)]·(H₂O)₄, 6 with a standard Wells-Dawson structure^[2]. The Ortep drawings of the two kinds of structures are viewed as follows.     

Studies on Organo-Phosphorus, -Arsenic and -Antimony Polytungstates and Polymolybdates (Ⅶ)——Preparation and Properties of p-Aminophenylarsenic Polymolybdates

In order to investigate the influence of organic groups on the types of organoarsenic polymolybdates, the reations of p-aminophenylarsonic acid with sodium molybdate were tested at pH=3-5. Six salts were prepared and characterized. (1) (CN3H8)4 [(p-NH3C6H4As)2Mo6O25] · H2O, (2) (CN3H6)4 [(p-, NH3C6H4As )2Mo6O25 ] · 6H20, (3) Cs4 [(p-NH3C6H4As)2Mo6O25] · 4H2O, (4) C(CH3)4N]4[(p-NH3C6H4As)2Mo6O25] · 5H2O, (5) [(n-C4H9)4N]3Na[(p-NH3C6H4As)2Mo6O25] · 2H2O, (6) Ba2 NH3C6H4As)2Mo6O25] · 10H2O. The IR, UV spectra, and electrochemical behavior are reported and discussed. They should belong to the same type as that for phenyl derivative or the nitrophenyl derivatives. But the ammo groups can accept protons, so that the anion' s charge decreases. Very similar to the tungsten congener (CN3H6)4[(p-NH3C,H4As)2W6O25] · 4H2O, [(RAs)2Mo6O25]4- type of complexes are formed.     

Third-order Optical Nonlinearities of a Series of Compounds Derived from a Keplerate Type Molybdenum-oxide-based Polyoxometalate

Abstract By reacting the unique Keplerate type molybdenum-oxide based polyoxometalate （NH4）42·[MoI320372·（CH3COO）30（H2O）y2]·ca.300H2·ca. 10CH3COONH4（1） with tetramethylammonium bromide, a new derivative （NH4）26[TMA]16{MoI32O372（H2O）72（CH3COO）30}·ca.7NH4CH3COO·ca.189H2O（2, TMA=tetramethylammonium） was prepared. Compound 2 was characterized by Fourier transform infrared spectroscopy（FTIR）, UV-Vis, elemental and thermogravimetric analyses. By the well-established Z-scan technique, investigations on the nonlinear opti- cal（NLO） properties of the series of compounds derived from the Keplerate type molybdenum-oxide-based poly- oxometalate, namely, the newly prepared compound 2, the three previously reported compounds, included compound 1, （NH4hs（TBA）24{Mo132O372（H2O）72（CH3COO）30}·ca.7NH4CH3COO·ca. 173H2O（3, TBA=tetrabutylammonium） and （DODA）40（NH4）2[（H2O）nMo132O372（CH3COO）3o（H20）72]（4, DODA=dimethyldioctadecylammonium）, reveal that the third-order nonlinearity[x（3）] values of compounds 1, 2 and 3 in the DMF/H2O solution and compound 4 in chloro- form are almost the same, which indicates that the counter cations with different length of alkyl chains show ignora- ble impacts on the NLO susceptibility. In other words, the remarkable third-order nonlinearities[x（3）≈10 19 m2/V2] mainly come from the [MoI32O372（CH3COO）30（H2O）72]42 anions. This fact reveals that the applications of the NLO active polyoxometalates in various environments（such as hydrophilic, hydrophobic, polar, apolar, etc.） can be achieved by simply varying cations to meet the demands in the design of diverse devices. Keywords Keplerate type polyoxometalate; Nonlinear optical property; Z-Scan technique; Self-defocusing; Reverse saturable absorption     

Template-directed Synthesis of Three Metal Oxalates via 4-Connected Building Units

Three novel compounds, [Co（en）3]2[Zr2（C2O4）7]·2H20（HNU-2, en=ethylenediamine）, [Co（NH3）6]· [Ce（CzO4）3（H2O）]·H2O（HNU-3） and [Co（dien）2][Gd（C2On）3]·0.75H2O（HNU-4, dien=dethylenetriamine） were hydro- thermal synthesized based on the templates of [Co（en）3]C13, [C0（NH3）6]C13 and [Co（dien）2]C13, respectively. The Zr4＋ Ce3＋ and Gd3＋ cations are all coordinated by four oxalates to form [M（C2O4）n（H2O）n]m （M=Zr, Ce or Gd; n=0 or 1; m=4 or 5）, which are similar to [In（C2O4）4]5- in NKB-1, and can be regarded as 4-connected building units. The [M（C2O4）a（H2O）n]m units are connected via sharing the bis-bidentate bridging oxalate ligands to form binuclears in HNU-2 and 1D ＂zigzag＂ chains in HNU-3 and HNU-4. cular building units to design 3D open frameworks with It is suggested that these compounds could be used as mole- zeolite topologies.     

New Supramolecular Networks Based on Paratungstate with N-Donor Bridging Ligands

Three new supramolecular networks based on paratungstate and N-donor bridging ligands, [H₂bpmp]_2.5H[H₂W₁₂O₄₀]2H₂O(1), [H₂(bpp)]₂[H(py―CH₃)]_0.25[H(py―C₂H₅)]_0.25H_1.5[H₂W₁₂O₄₀]·4H₂O(2) and [H₂pip]₃[H₂W₁₂O₄₀](3)[bpmp=N,N'-bis(4-pyridylmethyl)piperazine; bpp=1,3-bis(4-pyridyl)propane; py=pyridine; pip=piperazine] were prepared by the hydrothermal synthesis and characterized by elemental analysis, infrared(IR), thermogravimetric(TG) analysis and single-crystal X-ray diffraction(XRD). All the compounds show high-dimen- sional supramolecular networks based on [H₂W₁₂O₄₀]^6- and the protonated N-donor ligands via the N―H···O―W hydrogen bonds and/or π···π stacking interactions. Their luminescent properties were investigated.     

Crystal Engineering of Multiple-component Organic Compound:Organic co-Crystals of the Functional Groups of Carboxyl and Amino with Persistent Hydrogen Bonding Motifs

Three small organic molecular co-crystal compounds (C₃N₆H₆)·(C₆H₁₀O₄)·H₂O(1), C₃H₈N₂O(3) and (H₄btec)₂·(4,4'-bipy)(4)(H₄btec=1,2,4,5-benzenetetracarboxylic acid, 4,4'-bipy=4,4'-bipyridine) and one coordination supramolecular compound [Mn(C₂O₄)(H₂O)₂]·C₆H₁₁NO₂(2) were synthesized by hydrothermal reaction. They were characterized by elemental analysis, infrared(IR) spectroscopy and single crystal X-ray diffraction(XRD). Structural analyses reveal that these 2D or 3D supramolecular networks of the compounds were formed by C―H···O, N―H···O, N―H···N, O―H···O and O―H···N hydrogen bonds. Therein, the functional groups of ―COOH, ―NH₂ and ―OH play important roles in constructing supramolecular architectures.     

Large heteropolymetalate complexes formed from lanthanide (Y, Ce, Pr, Nd, Sm, Eu, Gd), nickel cations and cryptate [As4W40O140]: synthesis and structure characterization

A new family of heteropolytungstate complexes (NH₄)₂₁[Ln(H₂O)₅{Ni(H₂O)}₂As₄W₄₀O₁₄₀]·xH₂O(Ln=Y, Ce, Pr, Nd, Sm, Eu, Gd) were prepared by the reaction of Na₂₇[NaAs₄W₄₀O₁₄₀]·60H₂O with NiCl₂·6H₂O and Ln(NO₃)₃·xH₂O at pH≈4.5. The crystal structures of (NH₄)₂₁[Gd(H₂O)₅{Ni(H₂O)}₂As₄W₄₀O₁₄₀]·51H₂O was determined by X-ray diffraction analysis and element analysis. The compound crystallizes in the monoclinic space group P2₁/n with a=19.754(3), b=24.298(4), c=39.350(6) Å, β=100.612(3)°, V=18564(5) ų, Z=2, R1(wR₂)=0.0544(0.0691). The central site S1 and two opposite sites S2 of the big cyclic ligand [As₄W₄₀O₁₄₀]²⁸⁻ are occupied by one Ln³⁺and two Ni²⁺, respectively, each site supply four O_d coordinating to metal ion, another one water molecule and other five water molecules coordinate, respectively, to Ni²⁺and Ln³⁺. Polyanion [Ln(H₂O)₅{Ni(H₂O)}₂As₄W₄₀O₁₄₀]²¹⁻ has C_2v symmetry. IR and UV–vis spectra of [NaAs₄W₄₀O₁₄₀]²⁷⁻ of the title compounds are discussed.     

Hydrothermal Syntheses and Characterization of Two 1D Chain Complexes and Tetra-capped Keggin Clusters

Two new compounds, [Ni(en)₂]{[Ni(en)₂]₂[Mo^VI₆Mo^V₂V^IV₈O₄₀(SiO₄)]}[(NH₂)₂(C₂H₄)₂NH]·2H₂O(1) and [Ni(en)₂]{[Ni(en)₂]₂[Mo^VI₅Mo^V₃V^IV₈O₄₀(VO₄)]}(en)·H₂O(2)(en=ethylenediamine), have been hydrothermally synthesized and characterized by elemental analysis, infrared(IR), X-ray photoelectron spectroscopy(XPS), electron spin-resonance(ESR) and thermogravimetric(TG) analysis and single-crystal X-ray diffraction(XRD) analysis. Both the compounds exhibit a 1D chain composed of bi-supporting tetra-capped Keggin clusters and nickle coordination fragments. The 1D chains are further assembled into a 3D supramolecular network with different packing modes via hydrogen bonds. The magnetic susceptibility of compound 1 demonstrates the presence of antiferromagnetic interactions.     

不同整比性VO2纳米粉体的合成

以V₂O₅,HCl,N₂H₄·2HCl和NH₄HCO₃为原料合成了紫红色多晶(NH₄)₅[(VO)₆(CO₃)₄(OH)₉]·10H₂O(I),产率80％～95％.在N₂气流中对前体I进行了TG/DTG和DTA热分析.研究了前体I在N₂-空气气流中热解时氧分压(po₂)和反应温度对产物VO₂整比性的影响.结果表明,在500℃条件下,VO_x中的x值与po₂呈正比关系,在po₂=30.3Pa条件下,在450～520℃区间,产物为缺氧VO₂;在t<450℃和t>520℃时,产物为富氧VO₂.在合适的条件下,成功地合成了从VO_1.927到VO_2.080之间不同整比性的VO₂粉体.产物组成均匀,其XRD谱未观察到非VO₂的杂质峰.VO₂粉体颗粒的平均粒径为20nm,粒度分布均匀并呈球形.     

一个钼钒二聚体簇合物的合成及其性能

以NH₄VO₃, H₃PMo₁₂O₄₀·xH₂O, Cu(NO₃)₂和哌嗪为主要原料,采用水热方法,合成了一个新的钼钒二聚体簇合物--(H₂NC₄H₈NH₂)₆［Mo^VI₁₆V^V₁₂P₂O₈₄］·5H₂O(1),其结构和性能经UV-Vis, IR, X-射线衍射、光电子能谱及热重分析表征。1属单斜晶系,P2(1)/c空间群, 晶胞参数a=20.450(4) , b=24.989(5) , c=20.450(4) , β=93.89 °, V=10 427(4) ³, Fw=4 159.18, Dc=2.650 g·cm^-3, μ=3.018 mm^-1, F(000)=7 952, Gof=1.029。晶体结构解析表明：1由两个单元Keggin型簇核［PMo₈V₆O₄₂］^7-聚合而成一个二聚体簇［P₂Mo_l6V₁₂O₈₄］^14-,该二聚体簇核和有机配体哌嗪之间通过复杂的氢键相互作用,展示三维超分子网络结构。