钇(Ⅲ)、铽(Ⅲ)、铒(Ⅲ)对氨基苯甲酸配合物共掺杂二氧化硅的光声光谱研究

合成了Tb(p-ABA)₃·H₂O和Ln(p-ABA)₃·H₂O(p-ABA: 对氨基苯甲酸, Ln: Y或Er)配合物共掺杂的SiO₂样品. 荧光光谱测定结果表明, Y(p-ABA)₃·H₂O的引入增强了样品中Tb³⁺离子的特征发光, 而Er(p-ABA)₃·H₂O的引入使Tb³⁺的发光减弱. 光声光谱结果表明, 与Tb³⁺配合物单掺的样品相比, Tb³⁺和Y³⁺配合物共掺样品的光声强度降低; 而Tb³⁺和Er³⁺配合物共掺的样品则情况相反. 实验测定了共掺杂样品的相对量子发光效率和发光寿命, 从无辐射跃迁和辐射跃迁的角度提出共发光效应可能的机制. 结合对室温下陈化干燥样品的分析发现, 只有经适当的热处理过程才能在SiO₂凝胶中形成具有多核结构的稀土配合物.     

单斜层状LiMn0.97Al0.03O2-x(PO4)x材料的合成及其电化学性能

以Na₂CO₃, (CH₃CO₂)₂Mn·4H₂O, Al₂O₃, Na₃PO₄·12H₂O和CH₃COOLi·2H₂O为原料, 通过2次高温固相法和一步水热离子交换法得到一系列铝和磷掺杂的LiMn_0.97Al_0.03O₂, LiMnO_1.99(PO₄)_0.01和LiMn_0.97Al_0.03O_2-x(PO₄)_x(x=0.01, 0.03, 0.05)化合物. 用X射线衍射(XRD)表征了前驱体及交换产物的晶体结构, 用扫描电镜(SEM) 测定了晶体的形貌. 通过X射线光电子能谱(XPS)、傅里叶红外光谱及恒电流充放电测试, 研究了掺杂离子对合成材料结构及电化学性能的影响. 研究结果表明, Al-PO₄复合掺杂综合了Al³⁺掺杂提高材料的电化学反应活性和减低材料的电化学反应阻抗以及PO₄^3-掺杂增大材料的晶胞体积的特点, 提高材料中Li⁺的扩散能力, 有效地抑制了材料由于Jahn-Teller效应引起的结构畸变, 改性后的LiMnO₂正极材料既保持了较高的容量又获得了良好的电化学循环性能.     

三元体系MgCl2-CO(NH2)2-H2O在25℃时的等温溶度与新相研究

测定了25℃时三元体系MgCl₂-CO(NH₂)₂-H₂O的等温溶度及饱和溶液的折光率和密度,且绘制成溶度图和性质-组成图.在三元体系内形成2个三元化合物新相:MgCl₂·CO(NH₂)₂·4H₂O(记作A)和Mgcl₂·4CO(NH₂)₂·2H₂O(记作B),B为新化合物.三元体系的溶度图由4支单饱和线[对应单饱和固相为MgCl₂·6H₂O、三元化合物A和B、CO(NH₂)₂]组成,这4支单饱和线两两交于3个三元无变点[对应双饱和固相为MgCl₂·6H₂O+A、A+B、B+CO(NH₂)₂].     

γ-苄基膦酸-磷酸锆的合成、表征及插层性能研究

于220℃水热晶化下制备了高结晶度的γ-ZrP,合成了3种γ-苄基膦酸-磷酸锆层状化合物Zr(PO₄).(H₂PO₄)_0.15(C₆H₅CH₂PO₃H)_0.85·0.4H₂O(1,d=1.86nm),Zr(PO₄)(H₂PO₄)_0.30(C₆H₅CH₂PO₃H)_0.70·0.6H₂O(2,d=1.78nm)和Zr(PO₄)(H₂PO₄)_0.50(C₆H₅CH₂PO₃H)_0.50·0.7H₂O(3,d=1.66nm).用X射线粉末衍射和³¹P固态核磁共振等手段表征其结构,并研究了其与α-苯乙胺的插层性能.     

H2O对Cu+/S2O82-/γ-Al2O3催化剂合成碳酸二甲酯性能的影响

反应温度120℃、压力3.0 MPa的条件下,考察了H₂O对浆态床DMC合成催化剂Cu⁺/S₂O₈^2-/γ-Al₂O₃活性的影响。结果表明,外界H₂O的引入加剧了催化剂的失活速率。对引入H₂O后回收催化剂进行了元素分析、XRD、DTG、Py-FT-IR和NH₃-TPD等表征,结果表明,H₂O的引入加速了催化剂中活性组分Cu的流失速率,生成更多没有催化甲醇氧化羰基化活性的Cu₂(OH)₃Cl晶体,加剧了催化剂的失活。     

三元体系LaCl3-Am(Am=Gly,Glu,Ser)-H2O(25℃)的研究

测定了3个三元体系LaCl₃-Am-H₂O(Am=Gly,Glu,Ser)在25℃时的溶度和饱和溶液的折光指数。报道了三元体系中生成的三元配合物La(Gly)Cl₃·2H₂O(A₁)、La(Gly)₃Cl₃·3H₂O(A₂)、La₂(Glu)₃Cl₆·8H₂O(C)、La(Ser)Cl₃·3H₂O(E)。用摩尔电导、红外光谱、X射线衍射、热分析及偏光显微镜鉴测定了各配合物的一些物理化学性质。     

六棱柱状多晶γ-Al2O3的制备、表征及其形成机制研究

以AlCl₃·6H₂O为前驱物,在氨水介质中用水热法制备了具有新颖形貌特征的六棱柱状多晶γ-Al₂O₃颗粒。采用X射线衍射(XRD)、扫描电镜(SEM)、透射电镜(TEM)及N₂物理吸脱附等方法对所制备的γ-Al₂O₃颗粒进行了表征,并对其形貌形成机制进行了分析。结果表明,铝前驱物在氨水介质中通过水热处理后,经焙烧可以形成形貌规整的六棱柱状γ-Al₂O₃颗粒,其边长与长度分别约为0.3 μm和2.5 μm。TEM图片显示,六棱柱颗粒是由尺寸在10 nm左右的粒子聚集而成,因而具有多晶γ相特征。所制备的γ-Al₂O₃材料具有发达的孔隙结构,比表面积为274 cm²/g,孔容为0.51 cm³/g,孔径集中分布在5.5 nm周围。研究发现,γ-Al₂O₃六棱柱形貌的形成机制与AlOOH二次粒子在NH₄⁺正电荷作用下发生的最稳态排列形式具有密切的关联。     

高氯酸铕的双亚砜配合物研究

本文报告了高氯酸铕的高、低熔点双(正-辛基亚砜)乙烷和双(苯基亚砜)乙烷的四个配合物:Eu(ClO₄)₃(α-BOSE)₃·2H₂O(Ⅰ)、Eu(ClO₄)₃(β-BOSE)₄·2H₂O(Ⅱ)、Eu(ClO₄)₃(α-BPhSE)₃(Ⅲ)和Eu(ClO₄)₃(β-BPhSE)₄·2H₂O(Ⅳ)的合成及性质。     

镧系元素Dawson结构钨钒磷四元杂多配合物的合成、表征以及对H2O2分解的催化活性

合成了通式为K₁₅H₃[Ce(P₂W₁₆VO₆₁)₂]·61H₂O、K₁₅H₄[Ln(P₂W₁₆VO₆₁)₂]·xH₂O(Ln=La³⁺,Pr³⁺,Nd³⁺,Sm³⁺,Eu³⁺,Gd³⁺,Dy³⁺,Yb³⁺)的9种镧系元素Dawson结构的钨钒磷四元杂多配合物,并用IR、UV、NMR、ESR、XRD、TG-DTA等对其结构和性质进行了研究。该类配合物具有与K₁₆[Ce(P₂W₁₇VO₆₁)₂]·50H₂O类似的结构,对H₂O₂分解有较高的催化活性。     

高氯酸二甘氨酸十二水合二铒的晶体结构

在水溶液中合成了甘氨酸铒配合物[Er₂(Gly)₂(H₂O)₁₂](ClO₄)₆·4H₂O单晶,并测定了其晶体结构。该晶体属单斜晶系,P2₁/n空间群。晶胞参数:a=1.0571(2)nm,b=1.0837(2)nm,c=1.7728(4)nm,β=90.09(3)°,V=2.0309(7)nm²,Z=2,D_c=2.239g/cm³.最终偏差因子R=0.055,R_w=0.061.每2个Er³⁺离子由2个甘氨酸羧基桥联成双核结构。Er³⁺离子还与6个水分子的氢原子配位,形成畸变的四方棱柱型配位多面体。     

铈源对甲醇水蒸气重整制氢CuO/CeO2催化剂的影响

采用沉淀法合成了CeO_2载体,再经浸渍法负载活性组分得到CuO/CeO_2催化材料,探究了铈源(Ce(NO_3)_3·6H_2O、Ce Cl_3·6H_2O、Ce(NH_4)_2(NO_3)_6、Ce(SO_4)_2·4H_2O)对CuO/CeO_2催化性能的影响。通过采用XRD、SEM、N_2O滴定、BET和H_2-TPR等表征手段对催化材料的结构和性质研究发现,四种铈源合成的CuO/CeO_2催化材料在Cu比表面积、还原性能以及活性组分和载体间的相互作用方面存在着明显差别。其中,由Ce(NO_3)_3·6H_2O合成的CuO/CeO_2催化材料的Cu比表面积较大,CuO还原温度较低,CeO_2载体与CuO之间相互作用较强,在甲醇水蒸气重整反应过程中,表现出较佳的催化活性,在反应温度为553 K,水醇比n(H_2O)/n(MeOH)为1.2,甲醇水蒸气气体空速(GHSV)为1760 h~(-1)时,甲醇的转化率为100%,重整气中CO摩尔含量为0.84%。     

Synthesis,Structure Characteristic and Thermal Behavior of Two New Metal-organic Azo-triazole Compounds: [Zn(phen)3]·ZTO·6H2O and[Cu(phen)3]·ZTO·6H2O

[Zn(phen)₃]·ZTO·6H₂O(1) and[Cu(phen)₃]·ZTO·6H₂O(2) were synthesized by the reaction of Zn(NO₃)₂·6H₂O/Cu(NO₃)₂·3H₂O with 4,4-azo-1H-1,2,4-triazol-5-one(ZTO) and 1,10-phenanthroline(phen). The two compounds were characterized by elemental analysis and IR spectrum analysis, respectively. Compound 1 was also characterized by single crystal X-ray diffraction analysis. For compound 1, the coordination geometry around the Zn²⁺ is a distorted octahedron, with the bite angles of 76.7(3)°-77.6(4)° for all three phen ligands. Moreover, the thermal behaviors and thermal decomposition kinetics were studied and analyzed. Besides, thermal stability and safety parameters(T_SADT, T_b) are 164.7 and 166.4℃ for compound 1, and 149.6 and 150.8℃ for compound 2, respectively.     

Al源种类对微乳液法制备固体超强酸催化剂异构化性能的影响

分别以拟薄水铝石、γ-Al₂O₃、Al₂O₃、Al(NO₃)₃·9H₂O为Al源,通过微乳液法制备了一系列Pt-S₂₈O^2-/ZrO₂-Al₂O₃催化剂,并利用XRD、FT-IR、BET、H₂-TPR等手段对其进行了表征,考察了Al源种类对Pt-S₂₈O^2-/ZrO₂-Al₂O₃固体超强酸催化剂结构和酸性的影响,并以正戊烷异构化反应为探针,考察了Al源种类对催化剂异构化性能的影响。结果表明,不同Al源制备的催化剂均能够稳定ZrO₂四方晶相,增大催化剂的比表面积;除以拟薄水铝石为Al源制备的催化剂外,其他催化剂的氧化还原性能均有所提高。以Al(NO₃)₃·9H₂O为Al源制备的催化剂具有最大的比表面积和更多的超强酸,表现出最佳的异构化性能,在反应压力2.0 MPa、氢烃物质的量比4∶1、质量空速(WHSV)1.0 h^-1、反应温度220 ℃条件下,异戊烷产率达到59.5%。     

WO3的引入对MnOx-Fe2O3催化剂上NH3-SCR反应中N2选择性的促进作用

采用溶胶-凝胶法制备了不同含量钨修饰的MnO_x-Fe₂O₃催化剂,重点考察WO₃的引入对NH₃-SCR反应中N₂选择性的影响,通过XRD、BET、XPS、H₂-TPR、Raman和In situ DRIFTS等手段对催化剂的物理化学性质进行表征。结果表明,钨的引入显著提高NH₃-SCR的N₂选择性,当WO₃质量分数为15%时,具有最佳的NH₃-SCR催化性能,且在50-250℃条件下N₂O浓度始终低于0.003%。这主要是由于适量WO₃的引入,导致催化剂物相由α-Fe₂O₃向γ-Fe₂O₃转变,并与锰相互作用形成新的无定型MnWO₄,获得较大的比表面积;使得Mn⁴⁺/（Mn³⁺+Mn⁴⁺）比例减少但Fe²⁺及表面化学吸附氧（O_α）含量增加,从而降低催化剂氧化性;增强催化剂表面的Lewis酸性位点的含量及强度,增强NH₃的吸附,促进了SCR反应,同时抑制了NO₂深度氧化形成硝酸盐物种,降低硝酸盐物种还原产生的副产物N₂O含量,从而显著提高WO₃-MnO_x-Fe₂O₃催化剂在NH₃-SCR中的N₂选择性。     

Nd(Gly)2Cl3·3H2O和Pr(Ala)3Cl3·3H2O的热力学性质

利用精密自动绝热热量计测定了Nd(Gly)₂Cl₃·3H₂O在80-357K和Pr(Ala)₃Cl₃·3H₂O在80-374K温区的热容. 根据两个化合物的热容计算出了相对于参考温度298.15K的热力学函数(H_T?H_298.15)和(S_T?S_298.15). 根据热重(TG)分析结果, 提出了这两个稀土化合物可能的热分解机理. 利用溶解-反应恒温热量计测定相关化合物的溶解焓并设计盖斯热化学循环, 计算出了两个化合物的标准摩尔生成焓.     

Isothermal Evaporation of Quaternary System Li^＋, K^＋, Mg^2＋//Cl^--H2O at 348K

The solubilities of the quaternary system Li^＋,K^＋,Mg2^＋//Cl^--H2O were investigated at 348 K via isothermal evaporation.The densities and refractive indices of its equilibrated solution were also determined experimentally.On the basis of the obtained data,the metastable phase diagram,the water content diagram,the diagrams of the density and refractive index against the composition of this quaternary system were constructed.The quaternary system Li^＋,K^＋,Mg^2＋//Cl^--H2O at 348 K belongs to a complex type with the formation of two carnallite double salts,which are potassium carnallite（K-carnallite） and lithium carnallite（Li-carnallite）.There are five salts like potassium chloride （KCl）,lithium chloride monohydrate（LiCl.H2O）,bischofite（MgCl2·6H2O）,K-carnallite（KCl·MgCl2·6H2O） and Li-carnallite（LiCl·MgCl2·7H2O）,seven unvariant curves named AH3,BH2,CH3,DH1,EH1,H1H2 and H2H3,and three invariant points,namely H1,H2 and H3,included in this metastable phase diagram.Comparisons between the stable phase diagram at 298 K and metastable phase diagram at 348 K of this quaternary system show that all the crystalline forms of the salts are not changed,whereas the crystallization areas of salts are changed significantly with temperature.The scope of KCl crystallization increases from 82% to 95% and that of K-carnallite decreases from 15.80% to 0.32% along with the temperature increasing from 298 K to 348 K,respectively.     

Measurement of Solid-liquid Equilibria in Quaternary System Li+, K+//SO42-, B4O72--H2O at 288 K

In order to utilize the brine resources in China, the solid-liquid equilibria in quaternary system Li⁺, K⁺//SO₄^2-, B₄O₇^2--H₂O at 288 K was studied by the isothermal solution equilibrium method. Solubilities and densities of solutions were determined experimentally. According to the experimental data, the equilibrium phase diagrams, density-composition diagram and corresponding water content diagram of the quaternary system were plotted. Double salt KLiSO₄ was found in the reciprocal quaternary system Li⁺, K⁺//SO₄^2-, B₄O₇^2--H₂O at 288 K. The quaternary system has three invariant points, seven univariant curves and five fields of crystallization. The five crystallization regions correspond to Li₂B₄O₇·3H₂O, Li₂SO₄·H₂O, K₂B₄O₇·4H₂O, K₂SO₄ and KLiSO₄, respectively. The crystallization field of salt Li₂B₄O₇·3H₂O is the largest, whereas that of Li₂SO₄·H₂O is the smallest. The experimental results show that Li₂SO₄·H₂O has a strong salting-out effect on other salts.     

四元体系H3BO3-MgSO4-MgCl2-H2O在273.15K的溶解度等温线

作者考察了H₃BO₃-MgSO₄-MgCl₂-H₂O四元体系在273.15±0.05K温度下的溶解度等温线。四元体系共饱和点的液相组成为33.44%(重量)MgCl₃,1.77%MgSO₄和0.65%H₃B0₃。     

Hydrothermal synthesis, crystal structure and characterization of [Zn(H2O)4]2 [H2As6V15O42(H2O)]·2H2O

The compound [Zn(H₂O)₄]₂[H₂As₆V₁₅O₄₂(H₂O)]·2H₂O (1) has been synthesized and characterized by elemental analysis, IR, ESR, magnetic measurement, third-order nonlinear property study and single crystal X-ray diffraction analysis. The compound 1 crystallizes in trigonal space group R3, a=b=12.0601(17) Å, c=33.970(7) Å, γ=120°, V=4278.8(12) Å³, Z=3 and R1(wR2)=0.0512 (0.1171). The crystal structure is constructed from [H₂As₆V₁₅O₄₂(H₂O)]⁴⁻ anions and [Zn(H₂O)₄]²⁺ cations linked through hydrogen bonds into a network. The [H₂As₆V₁₅O₄₂(H₂O)]⁶⁻ cluster consists of 15 VO₅ square pyramids linked by three As₂O₅ handle-like units.