富氧条件下Co/ZSM-5催化剂对C3H8选择还原NOx的性能

采用多种物理化学手段研究了在模拟的轻型柴油车尾气中不同Co担载量及Cu掺杂的Co/ZSM-5催化剂的Co组分分散状态、可还原性、NO吸附脱附性质对C₃H₈选择性催化还原NO_x性能的影响。结果表明,浸渍法制备的Co/ZSM-5催化剂上既有外表面上的Co³⁺和Co²⁺物种,也有孔内的Co²⁺离子。富氧条件下Co/ZSM-5催化剂上C₃H₈选择性催化还原NO_x的活性主要与ZSM-5载体孔外表面分散的CoO_x物种中的钴离子可还原能力和NO吸附脱附性能密切相关。Co/ZSM-5催化剂上适宜的Co担载量约为4.0wt%,低担载量时随Co担载量增加,表面CoO_x物种中钴离子可还原能力增强,C₃H₈选择性催化还原NO_x的低温转化活性增加;高担载量时,随Co担载量增加,单位Co离子的NO吸附量的减少以及催化剂表面活性中心数的减少,导致了Co/ZSM-5催化剂NO_x的转化率和催化剂比速率（k）的下降。孔外表面Co₃O₄晶体的存在使催化剂表面产生较强的NO吸附,并在高温时有利于C₃H₈的氧化燃烧,使C₃H₈选择性催化还原NO_x的活性降低。     

Cu的负载方法对CuSAPO-34脱除柴油车尾气中NOx的影响

采用X射线衍射、扫描电镜、原子吸收、程序升温还原、X射线吸收近边吸收谱、X射线光电子能谱、氮吸附等手段对水热合成(HS)、等体积浸渍(PVI)与离子交换(IE)法制备的CuSAPO-34样品进行了表征,并评价了老化前后催化剂上C₃H₆-SCR与NH₃-SCR脱除模拟柴油车尾气中NO_x的反应活性.结果表明,IE法制得的催化剂活性最高,尤其在C₃H₆-SCR低温阶段;PVI法制得的催化剂活性最差.制备方法影响CuSAPO-34催化剂的比表面积、孔径分布和活性组分价态从而改变其催化活性.各催化剂均存在Cu⁺和Cu²⁺,但比例明显不同.HS样品以Cu²⁺为主,另两种样品则含较多的Cu⁺.老化不仅部分破坏了分子筛的形貌、降低了分子筛的比表面积,尤其是表面Cu含量,而且有部分Cu生成了CuSO₄,使得老化后催化剂的脱硝活性降低.PVI法制得的催化剂老化后活性下降幅度最小,表明该分子筛抗老化能力较强.     

CuFe-SAPO-34分子筛的结构和催化性能研究

采用一步水热合成法,通过调变初始凝胶中的硅铁比,制备系列铜铁含量不同的CuFe-SAPO-34催化剂用于NH₃选择性催化还原NO_x反应（NH₃-SCR）,并采用ICP、XRD、SEM、BET、H₂-TPR等方法对其结构进行表征.结果表明,CuFe-SAPO-34催化剂具有典型的CHA结构,Cu和Fe均处于分子筛载体的离子交换位.当初始凝胶SiO₂/Fe₂O₃=10时,Cu_2.5Fe_3.1-SAPO-34催化剂具有最大的比表面积和孔容.掺杂适量的Fe,可提高活性物种Cu²⁺的比例及其氧化还原性能,显著降低Cu物种的聚集程度.NH₃-SCR反应结果表明,Cu_2.5Fe_3.1-SAPO-34催化剂具有最宽的反应温度窗口.与Cu-SAPO-34相比,Fe的掺杂显著提高了其高温段的催化活性和低温抗水能力,提高了Cu-CHA催化剂在实际应用中的稳定性.     

基于双核{Zn2(COO)4}次级构筑单元的二维发光配位聚合物的晶体结构和对Fe3+的检测

使用H2L配体（H2L=2-（1,3-dioxo-1H-benzo[de]isoquinolin-2（3H）-yl） terephthalic acid）和Zn²⁺通过水热反应,合成了一例基于双核{Zn₂（COO）₄}次级构筑单元的二维发光配位聚合物[Zn₂（L）₂（DMSO）₂（DMF）]（1）（DMSO=二甲亚砜,DMF=N,N-二甲基甲酰胺）。拓扑分析表明1结构中的双核{Zn₂（COO）₄}单元可视为4连接节点,并与作为连接子的L^2-形成（4,4）-网拓扑构型。1表现出对Fe³⁺离子的选择性发光猝灭响应,检测限为2.8 μmol·L^-1。1对Fe³⁺的检测具有良好的抗干扰性,且可通过DMF溶剂洗涤实现再生,可多次循环使用。     

受限几何型金属化合物的合成和催化性能

通过筛选合成路线和方法制备了3种桥联芴基-芳胺基化合物Me₂Si[（Flu）H]NH-2,6-ⁱPr₂C₆H₃（L¹）、Me₂Si[2,7-^tBu₂Flu（H）]NH-2,6-ⁱPr₂C₆H₃（L²）和Me₂Si[2,7-^tBu₂Flu（H）]NH-2,4,6-Me₃C₆H₂）（L³）,分别与第四族金属氯化物MCl₄反应制备了4种受限几何结构的茂金属化合物[Me₂Si（Flu）（N-2,6-ⁱPr₂C₆H₃）]ZrCl₂（THF）₂（1）、[Me₂Si（2,7-^tBu₂Flu）（N-2,6-ⁱPr₂C₆H₃）]TiMe₂（2）、[Me₂Si（2,7-^tBu₂Flu）（N-2,4,6-Me₃C₆H₂）]TiMe₂（3）和[Me₂Si（2,7-^tBu₂Flu）（N-2,6-ⁱPr₂C₆H₃）]HfMe₂（4）。化合物L¹~L³和1~4都经过谱学和元素分析表征,其中1~3还经过X射线衍射单晶结构确认。在AlⁱBu₃和（Ph₃C）⁺[B（C₆F₅）₄]-双助剂作用下研究了1~4分别催化乙烯/1-辛烯聚合性能,结果显示茂金属单活性中心作用特点以及1-辛烯的共聚效果。考察和比较了其它3种受限几何钛化合物[Me₂Si（C₅Me₄）（N^tBu）]TiCl₂、[Me₂Si（Ind）（N^tBu）]TiCl₂和[Me₂Si（Flu）（N^tBu）]TiMe₂的催化性能;讨论了1~4的结构和催化作用的关联性。     

自组装的四(4-N,N-二乙胺基苯基)卟啉/多酸(钠)有机/无机复合薄膜及其气敏性质

选择Keggin型12-磷钨酸（TPA）及其钠盐（NaTP）水溶液为亚相,用四（4-N,N-二乙胺基苯基）卟啉化合物（H₂TNPP）自组装膜为功能模板,釆用低成本的QLS法成功制备了2种新型有机/无机复合材料：H₂TNPP/TPA,H₂TNPP/NaTP QLS薄膜。薄膜结构、形貌及半导体性质测试发现：H₂TNPP分子在H₂TNPP/TPA,H₂TNPP/NaTP复合膜中均采取H-聚集模式,TPA亚相上H-聚集程度更大。而在纯H₂TNPP膜中其为J-聚集模式。3种薄膜表面均为纳米颗粒形貌,以H₂TNPP/NaTP膜表面颗粒均一,颗粒尺寸最小（~60 nm）,H₂TNPP/TPA膜表面缺陷较多,颗粒尺寸最大（~150 nm）。薄膜导电性依次为H₂TNPP/NaTP（3.00×10^-5 S·cm^-1）>H₂TNPP/TPA（2.49×10^-5 S·cm^-1）>H₂TNPP膜（1.53×10^-5 S·cm^-1）。常温气敏测试发现：3种薄膜在30 s内对浓度小于1.88 mg·m^-3的NO₂气体都有响应,灵敏度依次为H₂TNPP/NaTP（43%）>H₂TNPP膜（16%）>H₂TNPP/TPA（4.5%）。具有最小颗粒尺寸和最高导电性的H₂TNPP/NaTP复合薄膜具有最高的灵敏度,并且对NO₂检测限低至0.094 mg·m^-3。显示出了非常高的实际应用价值。本研究为制备低成本、高灵敏度、环境友好的快速室温NO₂气敏器件提供了一种新的策略。     

由六亚甲基四胺和柔性芳香羧酸构筑的两个一维配位聚合物的合成及晶体结构

利用六亚甲基四胺分别与苯氧乙酸、Cu(NO₃)₂·3H₂O及2,4-二氯苯氧乙酸、Zn(NO₃)₂·6H₂O反应,得到了2个新的一维配位聚合物,{[Cu₂(pa)₄](μ₂-hmt)}_n (1)和{{{[Zn₃(dcpa)₄(OH)]₂(μ₂-dcpa)₂}(μ₂-hmt)}·5H₂O}_n (2)(Hpa=苯氧乙酸,Hdcpa=2,4-二氯苯氧乙酸,hmt=六亚甲基四胺)。2个配合物均用元素分析、红外光谱、X射线单晶衍射及差热分析进行了表征。晶体结构分析表明,在配合物1中,4个苯氧乙酸根桥联2个Cu²⁺形成[Cu₂(COO)₄]双核结构,相邻的[Cu₂(COO)₄]双核单元由六亚甲基四胺桥联成一维的"zigzag"链;在配合物2中,6个2,4-二氯苯氧乙酸根和2个OH-桥联6个Zn²⁺形成六核{[Zn₃(dcpa)₄(μ₃-OH)]₂(μ₂-dcpa)₂}结构单元,然后相邻的六核单元由2个六亚甲基四胺桥联成一维双链结构。     

酚氧桥联多核铜(Ⅱ)配合物的合成、结构和磁性

利用柔性酚胺类配体N,N'-二甲基-N,N'-(2-羟基-4,5-二甲基苄基)乙二胺(H₂L)与Cu(Ⅱ)反应,合成了2个新的酚氧桥联多核Cu(Ⅱ)配合物[Cu₃^II(L)₂(CH₃OH)₂](ClO₄)₂(1),[Cu₃^II(L)₂(Cu^ICl₂)₂](2)。配合物1~2中,3个Cu²⁺之间通过2个酚氧桥连接,形成线性三核结构。两边的铜离子分别被配体L^2-上的N₂O₂螯合配位,轴向与甲醇分子的氧(配合物1)或[CuCl₂]^-的氯(配合物2)配位,形成四方锥配位构型。中间铜离子与两侧L^2-上的4个酚氧原子以平面四边形配位。Cu^II-O-Cu^II键角为100.14°~101.79°。对配合物1~2进行变温磁化率测量表明,铜离子之间通过酚氧桥存在强的反铁磁耦合,磁耦合常数J分别为-277(9)cm^-1(配合物1)和-299(3)cm^-1(配合物2)(基于自旋哈密顿算符Ĥ=-2J(Ŝ₁·Ŝ₂+Ŝ₂·Ŝ₃)。J值与酚氧桥桥联键角有一定相关性,即Cu-O-Cu桥联键角越大,反铁磁耦合越强。     

电荷补偿对Ba2ZnGe2O7：Bi3+荧光粉发光性质的影响

采用高温固相法制备了2个系列的荧光粉样品：Ba_2-xZnGe₂O₇：xBi³⁺（系列Ⅰ）和Ba_1.994-yK_yZnGe₂O₇：0.006Bi³⁺（系列Ⅱ）。X射线衍射（XRD）测试结果表明,少量Bi³⁺、K⁺的掺杂不会明显改变材料的物相结构。样品的荧光光谱测试结果表明,虽然2个系列样品的发光光谱都随组成成分变化有少量变化,但发光颜色基本上均为黄绿色。在358 nm的激发下,荧光粉的发射光谱呈现一个峰值在500 nm的宽发射带,归属于³P₁→¹S₀能级跃迁。在500 nm监测下,荧光粉的最强激发峰位于358 nm,归属于¹S₀→³P₁能级跃迁,此外还有一个位于320 nm的肩峰归属于O^2--Bi³⁺电荷转移带。系列Ⅰ样品的光谱数据结果指出,Bi³⁺的最佳掺杂量x为0.006。在该基质中,Bi³⁺掺杂取代Ba²⁺属于不等价取代,会在晶格中产生Ba²⁺空位或间隙O^2-,对材料的发光强度产生负面影响。对此,采用K⁺与Bi³⁺协同掺杂起到电荷补偿的作用,填补Ba²⁺空位或捕获间隙O^2-缺陷。空位被填补或间隙被捕获均减少了晶格畸变,从而使发光强度明显提高。系列Ⅱ样品的光谱数据表明,完全电荷补偿的荧光粉样品相比于没有掺K⁺的样品,其发光强度提高了约2.5倍。     

杂化化合物(C7H11N2)2[CdCl4]·0.5H2O的晶体结构、光谱表征和光学性质

开发了标题化合物（C₇H₁₁N₂）₂[CdCl₄]·0.5H₂O （C₇H₁₁N₂=4-（二甲基氨基）吡啶鎓）的制备程序,并得到良好的收率和纯度。Cd（Ⅱ）离子在略微扭曲的四面体环境中与4个氯离子配位。晶体排列显示出层状结构,有机层和无机层交替排列,平行于（001）平面,位于x=n+1/2（n∈Z）。在晶体中,有机层和无机层通过C—H…Cl、C—H…O、N—H…Cl和N—H…O氢键相互作用连接。Hirshfeld表面分析和结构的指纹图表明分子堆积受氢键和π堆积的控制。UV-Vis漫反射光谱使我们能够用Tauc外推法确定具有半导体特性的3.596 eV的直接带隙。观察到的在562 nm处具有最大值的光致发光带归属于4-（二甲基氨基）吡啶鎓阳离子中的激发π-π^*态。     

X-ray Crystal Structure of (CNSSS)2(M)2 (M = AsF6 −, SbF6 −, Sb2F11 −)

The crystal structures of (CNSSS)₂(AsF₆)₂, (CNSSS)₂(SbF6)₂, and two phases of (CNSSS)₂(Sb₂F₁₁)₂ have been determined. The AsF₆ ^?, SbF₆ ^?, and α-Sb₂F₁₁ ^? salts crystallize as reddish-brown plates whereas the β-Sb₂F₁₁ ^? salt crystallizes as green rods. The dication ^ß+SSSNCCNSSS^+ß (1²⁺) is the same in all four structures and consists of two 7π rings linked by a sp²-sp² C-C bond (1.462 Å in 1 (AsF₆)₂). The packing in the four structures is similar with stacks of dications along the a-axis and alternating sheets of dications and anions lying in the bc-plane. The differences in the dication-dication contacts is reflected in the variable temperature magnetic data.     

The Synthesis of 13C9-15N-Labeled 3,5-Diiodothyronine and Thyroxine

Thyroid hormones undergo extensive metabolism to regulate hormone activity. A labeled thyroid hormone would be useful to track hormone metabolism through various pathways. While radiolabeled thyroid hormones have been synthesized and used for in vivo studies, a stable isotope labeled form of thyroid hormone is required for studying thyroid hormone metabolism by LC-MS/MS, an analytical technique that has certain advantages without the complications of radioactivity. Here we report the synthesis of ¹³C₉-¹⁵N-T₂ and ¹³C₉-¹⁵N-T₄, two labeled thyroid hormone derivatives suitable for in vivo LC-MS/MS studies.

Supplemental materials are available for this article. Go to the publisher's online edition of Synthetic Communications® to view the free supplemental file.     

Ab initio investigations of the bound rovibrational levels of NeH 2 + , NeHD+, and NeD 2 +

Summary Bound rovibrational levels have been calculated for NeH ₂ ⁺ , NeHD⁺, and NeD ₂ ⁺ using three recent fits to an accurateab initio PES. The NeH ₂ ⁺ molecule behaves essentially as a linear molecule, the predicted rotational constant is 2.57 cm^–1. The fundamental frequencies are 811, 1189, and 1748 cm^–1 for the Ne-H ₂ ⁺ stretch, the Ne-H ₂ ⁺ bend and H ₂ ⁺ stretching modes, respectively.Dedicated to the 60th birthday of Prof. W. Kutzelnigg, Bochum     

Ca2+-Mg2+-Zn2+体系在水溶性聚磷酸铵溶液中螯合规律的研究

近年来,水溶性聚磷酸铵在液体肥料和复合肥料的领域受到了广泛的关注,并在发达国家中得到了大面积的推广及应用。在pH值为5.5~8.0、温度为278.15 K~323.15 K的条件下,本文采用滴定法研究Ca_²⁺-Mg_²⁺-Zn_²⁺体系在聚磷酸铵溶液中的螯合规律。实验结果表明：相同质量分数的聚磷酸铵溶液对金属离子的螯合量会随着体系中Ca_²⁺、Mg_²⁺、Zn_²⁺的摩尔浓度的变化而变化;随着温度的升高而逐渐降低;随着pH的增加而逐渐增加;随着聚合度的升高而逐渐增加。采用傅里叶红外光谱对聚磷酸铵和A₁B₃C₃体系的螯合物进行表征。     

Freezing-point of mixtures of H 2 16 O and H 2 18 O

Freezing-point depression of mixtures of H ₂ ¹⁶ O and H ₂ ¹⁸ O were measured. The results showed that the freezing point of the mixture rose linearly with an increase in the molal concentration of H ₂ ¹⁸ O. The results suggested the formation of a solid solution of H ₂ ¹⁶ O and H ₂ ¹⁸ O by freezing, similar to that formed by H ₂ O–D ₂ O, and that H ₂ ¹⁸ O behaves as a different molecule than H ₂ ¹⁶ O.     

Syntheses, crystal structures and Raman spectra of Ba(BF4)(PF6), Ba(BF4)(AsF6) and Ba2(BF4)2(AsF6)(H3F4); the first examples of metal salts containing simultaneously tetrahedral BF4 and octahedral AF6 anions

In the system BaF₂/BF₃/PF₅/anhydrous hydrogen fluoride (aHF) a compound Ba(BF₄)(PF₆) was isolated and characterized by Raman spectroscopy and X-ray diffraction on the single crystal. Ba(BF₄)(PF₆) crystallizes in a hexagonal space group with a=10.2251(4) Å, c=6.1535(4) Å, V=557.17(5) Å³ at 200 K, and Z=3. Both crystallographically independent Ba atoms possess coordination polyhedra in the shape of tri-capped trigonal prisms, which include F atoms from BF₄⁻ and PF₆⁻ anions. In the analogous system with AsF₅ instead of PF₅ the compound Ba(BF₄)(AsF₆) was isolated and characterized. It crystallizes in an orthorhombic Pnma space group with a=10.415(2) Å, b=6.325(3) Å, c=11.8297(17) Å, V=779.3(4) Å³ at 200 K, and Z=4. The coordination around Ba atom is in the shape of slightly distorted tri-capped trigonal prism which includes five F atoms from AsF₆⁻ and four F atoms from BF₄⁻ anions. When the system BaF₂/BF₃/AsF₅/aHF is made basic with an extra addition of BaF₂, the compound Ba₂(BF₄)₂(AsF₆)(H₃F₄) was obtained. It crystallizes in a hexagonal P6₃/mmc space group with a=6.8709(9) Å, c=17.327(8) Å, V=708.4(4) Å³ at 200 K, and Z=2. The barium environment in the shape of tetra-capped distorted trigonal prism involves 10 F atoms from four BF₄⁻, three AsF₆⁻ and three H₃F₄⁻ anions. All F atoms, except the central atom in H₃F₄ moiety, act as μ₂-bridges yielding a complex 3-D structural network.     

Tetraalkylammonium Ions in Aqueous and Non-aqueous Solutions

Property data for tetraalkylammonium cations, [H(CH₂) _n ]₄N⁺, are reviewed. They pertain to the isolated cations and their transfer from the gas phase into aqueous solutions. Various properties of these cations in aqueous and non-aqueous solutions and data for their transfer between these are also reviewed. Emphasis is placed on the dependence of data on the length n of the alkyl chains rather than on the absolute values. Most of the data are available only for the first four members of the series. The properties of the isolated ions increase linearly with the chain length. Molar enthalpies of formation of the gaseous and aqueous cations, and absolute standard molar enthalpies of hydration, are derived. Standard molar entropies of dissolution of several salts in water are obtained from their solubilities and enthalpies of solution. The molar entropies of the crystalline iodides of the first four members of the series then give the standard partial molar entropies of the aqueous cations and their molar entropies of hydration. The standard partial molar volumes in aqueous and non-aqueous solutions are quite linear with n and in non-aqueous solutions the molar volume hardly depends on the nature of the solvent. On transfer from water to non-aqueous solvents the volume of Me₄N⁺ suffers some shrinkage, that of Et₄N⁺ appears to be unaffected, but from Pr₄N⁺ onwards an increasing expansion takes place. This unexpected result is tentatively explained by hydrophobic intra-molecular association of pairs of alkyl chains in aqueous solutions, resulting in a tightening of the structure. The transfer of the R₄N⁺ cations from water into non-aqueous solvents is governed by a large positive entropy change, outweighing the smaller positive enthalpy change. The transport properties of the aqueous R₄N⁺ cations are non-linear with n. A major impediment to movement is thus the sticking of the water molecules to the ice-like hydrophobic hydration sheaths of the larger cations. The number of water molecules affected by the hydrophobic cations is open to widely differing estimates resulting from various approaches, and constitute an open issue.     

Molecular orbitals studies on two limiting structures of conjugated vinyl cation,C4H4F+

Nonempirical LCAO-MO-SCF calculations employing STO-3G minimal basis set have been carried out to examine the two limiting, open and bridged, structures of a conjugative fluorovinyl cation system and the interconversion of these two structures. The bridged ion is found to be 37.6 kcal/mole higher in energy than the open ion. Three pathways of converting the open ion to bridged ion were investigated. The pathway in which conjugation is preserved along the reaction profile gives the lowest energy barrier and depicts the bridged ion as a transition state.     

氨基酸-BrO-3-Mn2+-H2SO4-丙酮体系的振荡反应

This paper, Using potentiometric method, first reports the oscillating behavior of five amino acids (L-methionine, L-cystine, L-tryptophan, L-serine, L-tyrosine) in a new oscillating system of amino acid-BrO_3~--Mn~(2+)-H_2SO_4-acetone. The effect of many factors on oscillation have been investigated. According to Arrhenius equation, the apparent activation energy of the oscillatary induction period and oscillation period of five oscillating systems are obtained within temperature range of 20～37 ℃.     

复合催化剂上CO2加氢合成C2烃类

介绍了由CO₂+H₂合成C2⁺烃的几种复合催化剂体系的研究进展，比较和评价了复合催化剂体系的活性和选择性及对C2⁺烃类生成的影响。着重于复合催化剂体系对C4⁺烃的生成及产物分布的影响并简述反应机理。