5-硝基间苯二甲酸钬配合物的合成、结构及标准摩尔生成焓

以5-硝基间苯二甲酸与硝酸钬在水溶液中反应制备了配合物Ho2(5-nip)2-(5-Hnip)2(H2O)8·4H2O(5-H2nip为5-硝基间苯二甲酸),并对其进行了元素分析、红外、热重和X-射线单晶衍射表征.结构分析表明,配合物中5-Hnip?以?2-?1:?1双齿桥连模式将两个相邻Ho3+离子连接成二聚体形式,分子间的O–H···O氢键和三种不同的?-?堆积作用使相邻的二聚体单元与游离水分子形成三维超分子结构.运用RD496-2000型微热量计在298.15 K下测定了该化合物在水溶液中生成反应的焓变.设计合理的热化学循环,辅助文献的热化学数据,以Hess定律计算得到了该化合物在298.15 K下的标准摩尔生成焓θf m?H为?(3371.5±16.9)kJ/mol.     

三元配合物RE(Et2dtc)3(phen)热化学性质的规律性

在无水乙醇中, 用铜试剂(NaEt₂dtc•3H₂O)和邻菲咯啉(o-phen•H₂O)分别与13种低水合氯化稀土合成了三元固态配合物(其中5种尚未见文献报道), 确定它们的组成可用通式RE(Et₂dtc)₃(phen)表示. IR光谱表明配合物中RE³⁺与3个NaEt₂dtc中的6个硫原子双齿配位, 同时与o-phen中的2个氮原子双齿配位. 用RD496-Ⅲ微量热计测定了298.15 K下13种水合氯化稀土盐及两个配体在无水乙醇中的溶解焓, 两个配体醇溶液的混合焓及13种化合物液相生成反应的焓变, 并通过合理的热化学循环, 求得了标题配合物的固相生成反应焓变; 测定了标题配合物298.15 K的比热容. 用RBC-II精密转动弹热量计测定了标题配合物的恒容燃烧热, 计算了它们的标准摩尔燃烧焓和标准摩尔生成焓. 发现系列配合物RE(Et₂dtc)₃(phen) (RE＝La, Pr, Nd, Sm～Lu)的多项热化学性质, 如低水合氯化稀土盐在无水乙醇中的溶解焓以及配合物的液相生成反应焓变和固相生成反应焓变、常温比热容、标准摩尔燃烧焓和标准摩尔生成焓都与稀土原子序数作图呈现“三分组现象”. 较集中地反映出配合物中RE³⁺与配体间的化学键有一定程度的共价性, 这是由于稀土离子5s²5p⁶轨道对4f电子的不完全屏蔽引起的.     

硝酸锌与四种α-氨基酸配合物的恒容燃烧能测定

Ten solid complexes of zinc nitrate with L-α-leucine(Leu)， L-α-valine(Val)， L-α-tryptophan(Try) and L-α-threonine(Thr) were prepared in water. The compositions of these complexes are determined by chemical analysis and elemental analysis， which are identified as Zn(Leu)(NO₃)₂·2H₂O(A)， Zn(Leu)₂(NO₃)₂·H₂O(B)， Zn(Val)(NO₃)₂·2H₂O(C)， Zn(Val)₂(NO₃)₂·H₂O(D)， Zn(Val)₃(NO₃)₂·H₂O(E)， Zn(Try)(NO₃)₂·2H₂O(F)， Zn(Try)₂(NO₃)₂·H₂O(G)， Zn(Thr)(NO₃)₂·2H₂O(H)， Zn(Thr)₂(NO₃)₂·H₂O(I) and Zn(Thr)₃(NO₃)·H₂O(J). The constant-volume combustion energies of the complexes， Δ_cU(complex)， were determined by a precise rotating bomb calorimeter at 298.15K. Standard enthalpies of combustion，Δ_cH_m^?(complex， s， 298.15K)， and standard enthalpies of formation， Δ_fH_m^?(complex，s，298.15K) for these complexes were calculated as (4523.22±2.08)， (7208.86±4.28)， (3442.21±1.85)， (5971.21±3.32)， (9007.26±4.24)， (5802.35±2.14)， (10891.58±3.01)， (2147.40±1.28)， (4120.83±0.99)， (6444.68±3.85)kJ·mol^-1 and (615.67±2.27)， (1863.16±4.60)， (1017.34±2.00)， (1742.93±3.61)， (2245.70±4.73)， (1161.18±2.61)， (1829.71±4.20)， (1632.82±1.43)， (1885.55±1.50)， (2770.25±4.21)kJ·mol^-1， respectively.     

Lu(Et2dtc)3(phen)的生成反应焓变、摩尔热容和恒容燃烧能测定

A ternary solid complex Lu(Et₂dtc)₃(phen) has been obtained from the reaction of hydrated lutetium chloride with sodium diethyldithiocarbamate (NaEt₂dtc), and 1,10-phenanthroline (o-phen·H₂O) in absolute ethanol. IR spectrum of the complex indicates that Lu³⁺ binds with sulfur atom in the Na(Et₂dtc)₃ and nitrogen atom in the o-phen. The enthalpy change of liquid-phase reaction of formation of the complex, Δ_rH_m^Ө (l), was determined to be (-32.821 ± 0.147 ) kJ·mol^-1 at 298.15 K by an RD-496 Ⅲ type heat conduction microcalormeter. The enthalpy change of the solid-phase reaction of formation of the complex, Δ_rH_m^Ө (s), was calculated to be (104.160 ± 0.168) kJ · mol^-1 on the basis of an appropriate thermochemistry cycle. The thermodynamics of liquid-phase reaction of formation of the complex was investigated by changing the temperature of liquid-phase reaction. Fundamental parameters, such as the activation enthalpy (ΔH_≠^Ө), the activation entropy (ΔS_≠^Ө), the activation free energy (ΔG_≠^Ө), the apparent reaction rate constant (k), the apparent activation energy (E), the pre-exponential constant (A) and the reaction order (n), were obtained by combination the reaction thermodynamic and kinetic equations with the data of thermokinetic experiments. The molar heat capacity of the complex, c_m, was determined to be (82.23 ± 1.47) J·mol^-1·K^-1 by the same microcalormeter. The constant-volume combustion energy of the complex, Δ_cU, was determined as (-17 898.228 ± 8.59) kJ·mol^-1 by an RBC-Ⅱtype rotating-bomb calorimeter at 298.15 K. Its standard enthalpy of combustion, Δ_cH_m^Ө, and standard enthalpy of formation, Δ_fH_m^Ө, were calculated to be (-17 917.43 ± 8.11) kJ·mol^-1 and (-859.95 ±10.12) kJ·mol^-1, respectively.     

分散聚合研究

介绍了分散聚合制备聚合物微球的研究进展，对分散聚合的成核与稳定机理、聚合过程、动力学、反应参数对聚合物微球粒径及分散性的影响以及运用分散聚合制备功能性聚合物微球及聚合物－－磁性材料复合微球的研究现状进行了回顾。     

可控制自由基聚合DPE法制备P(AA-MMA-ST)/Fe3O4磁性复合微球

在制备超细Fe₃O₄磁性粒子的基础上, 利用可控制自由基聚合DPE法制备出平均粒径为265 nm的P(AA-MMA-ST)/Fe₃O₄磁性复合微球. 采用XRD, TGA, FTIR等手段对所制备的磁性复合微球的形态、结构及磁响应性等进行了表征, 结果表明用DPE法制备出的磁性复合微球磁含量较高, 粒径比较均匀.     

RE(C5H8NS2)3(C12H8N2)的标准摩尔生成焓

在无水乙醇中, 使低水合氯化稀土 (RE = Ho, Er, Tm, Yb, Lu) 与吡咯烷二硫代氨基甲酸铵 (APDC)和1,10-菲咯啉 (o–phen•H₂O) 反应, 制得其三元固态配合物. 用化学分析和元素分析确定它的组成为RE(C₅H₈NS₂)₃(C₁₂H₈N₂) (RE = Ho, Er, Tm, Yb, Lu). IR光谱说明RE³⁺ 分别与3个PDC^–的6个硫原子双齿配位, 同时与o–phen的2个氮原子双齿配位, 配位数为8. 用精密转动弹热量计测定了它们的恒容燃烧热△_cU分别为(-16788.46 ± 7.74), (-15434.53 ± 8.28), (-15287.80 ± 7.31), (-15200.50 ± 7.22)和(-15254.34 ± 6.61) kJ•mol^-1; 并计算了它们的标准摩尔燃烧焓△_cH_m^θ和标准摩尔生成焓△_fH_m^θ分别为( -16803.95 ± 7.74), (-15450.02 ± 8.28), (-15303.29 ± 9.28), (-15215.99 ± 7.22), (-15269.83 ± 6.61) kJ • mol^-1和 (-1115.42 ± 8.94), (-2477.80 ± 9.15), (-2619.95 ± 10.44), (-2670.17 ± 8.22), (-2650.06 ± 8.49) kJ•mol^-1.