PVC/PBD-b-PMMA共混体系相容性的研究

采用ＤＭＡ和ＴＥＭ系统研究了聚丁二烯－聚甲基丙烯酸甲酯的嵌段共聚物（ＰＢＤ－ｂ－ＰＭＭＡ）与聚氯乙烯（ＰＶＣ）共混体系的相容性问题。结果表明：ＰＶＣ／ＰＢＤ－ｂ－ＰＭＭＡ共混体系具有部分相溶性。相容的程度与共混体系的组成、组分聚合物的分子量以及共聚物中ＰＢＤ和ＰＭＭＡ嵌段的比例密切相关。     

聚丙烯酰胺与混合表面活性剂的相互作用

通过粘度和紫外吸收光谱的测定，研究了ＰＡＭ与Ｒ１２ＳＯ３Ｎａ－Ｒ１１ＣＯＯＮａ混合表面活性剂之间的相互作用，结果表明，ＰＡＭ可与混合表面活性剂形成复合物，从而使体系表现出典型聚电解质的粘度行为。可能的机理是，以疏水力形成的Ｒ１２ＳＯ３＾－—Ｒ１１ＣＯＯＨ（Ｎａ）预胶束或二聚体通过ＰＡＭ－Ｒ１１ＣＯＯＨ间的氢键力相结合。进而使大分子链上带有大量负电荷，静电斥力引起大分子链伸展，因而产生电粘效应。     

锌指蛋白ZNF191(243~368)突变体I323W和R327W与寡聚核苷酸作用的荧光光谱

利用PCR方法对锌指蛋白ZNF191(243~368)的Ile323和Arg327进行定点突变, 成功地获得了突变体蛋白ZNF191(243~368) I323W和R327W; 并利用荧光光谱研究了锌指蛋白和它的突变体蛋白ZNF191(243~368)I323W和ZNF191(243~368) R327W与寡聚核苷酸的相互作用. 以溴化乙锭(EB)为荧光探针, 考察了I323W和R327W的突变对锌指蛋白ZNF191(243~368)结合寡聚核苷酸的影响.并计算了锌指蛋白突变体I323W和R327W与DNA的结合常数K_Z. 讨论了可能的结合模式.     

Syntheses, Structures and Characterizations of Two New Vanadium(V) Complexes: [PyH][VⅤO2(C14H9N2O3Br)] and [VⅤO(C14H9N2O3Br)(OCH3)]

The new oxovanadium (Ⅴ) complex, [PyH][VO2(L)] 1 (salicyladehyde 5-bromo salicyloylhydrazone is abbreviated as H2L; Hpy is protonated pyridine) was obtained from a refluxed solution of VOSO4 and H2L in acetonitrile-methanol-pyridine. Similarly, another new complex, [VO(L)(OCH3)] 2 was synthesized by refluxing VOSO4 and H2L in methanol-pyridine. Crystal data for 1: C19H15N3O5BrV, Mr = 496.2, monoclinic, P21/n, a = 7.1885(3), b = 9.2718(3), c = 28.803(1) (A), ( = 96.185(1)(, Z = 4 and V = 1908.6(1) (A)3; for 2: C15H12N2O5BrV, Mr = 431.1, monoclinic, P21/n, a = 12.202(2), b = 8.045(2), c = 16.604(3)(A), ( = 101.29(3)(, Z = 4 and V = 1598.4(2)(A)3. The structures of 1 and 2 have been determined by X-ray analyses and reveal that the coordination environments of V atoms in both complexes are of square-based pyramid. Three of the four based donor atoms are from the tridentate "ONO" donor ligand while the fourth is one terminal oxygen atom with the V(1)–O(3) distance 1.646(4) (A) for 1 and one -OCH3 group with the V(1)-O(3) distance 1.753(3)(A) for 2. The V(1)-O(4) terminals occupy the axial sites in both cases. The complexes are also characterized by IR and 1H NMR spectroscopies.     

[CO(ptma)(amp)Cl]2+体系的一反式经式异构体(n3[ZnCl4]·0.5H2O)的晶体结构

在合成[Co(bpma)(tn)Cl]2+体系配合物的实验中,得到[Co(ptma)(amp)Cl]2+体系的一反式(ptma中仲胺上的氢相对于Cl)经式异构体(m3[ZnCl4]@0.5H2O),其中bpma=N,N′-二(2-吡啶基甲基)胺,tn=1,3丙二胺,ptma=N-(2-吡啶基甲基)丙二胺,amp=2-(氨基甲基)吡啶.此配合物异构体构型选择性形成的原因可能主要是其结构中配体间C-H…π相互作用使之更稳定的结果.利用单晶X-射线衍射法测定的晶体学参数:单斜晶系,空间群C2/c,a=1.55978(19)nm,b=1.33324(16)nm,c=2.2077(3)nm,β=94.832(3)°,V=4.5748(10)nm3,Dc=1.696g@cm-3,Z=8,F000=2360,μ(MoKa)=23.72cm-1,R=0.0475,Rw=0.1204.配合物离子中Co3+为六配位.晶胞中含8个配合物阳离子,8个[ZnCl4]2-阴离子及4个水分子,对映体的比例为1:1.     

碳化硼纳米线的制备和结构

以碳纳米管为模板，通过加热碳纳米管与硼粉的混合物，获得了笔直的硼碳纳米线.对纳米线的结构和成分进行研究，结果表明纳米线主要为B4C纳米线.在部分B4C纳米线的端部存在Ni颗粒，这些端部具有Ni颗粒的纳米线构成了纳米磁针.讨论了B4C纳米线的生长机制，B4C纳米线的生长主要为硼原子在碳纳米管中扩散并发生化学反应，使得碳纳米管晶格结构发生重组，形成B4C纳米线.反应后，硼原子部分取代了碳纳米管中碳原子，修补了碳纳米管中的晶格缺陷，获得了形态笔直的B4C纳米线.     

含八齿苦味酸根的超分子苦味酸钾的合成和结构

A supramolecular complex， [Kpic]_n (pic^- is picratol， (NO₂)₃C₆H₂O^-)， has been synthesized unexpectedly in acetone solution， and characterized by elemental analysis， IR and X-ray crystallography. In the complex， the K⁺∶pic^- is 1∶1， and one K(Ⅰ) ion is surrounded by six picrate anions， one picrate anion can coordinate to six K(Ⅰ) ions. The coordination number of every potassium atom is eight. Interestingly， the picratol adopts an eight-coordinated ideal mode unreported. CCDC: 630627.     

含模板结构分子印迹材料制备及识别性能研究

以双酚A(BPA)为模板分子,α-甲基丙烯酸(MAA)为功能单体,以含模板分子结构的双酚A二甲基丙烯酸酯(BPDMA)为交联剂,制备了含模板结构的分子印迹聚合物材料,并与以二甲基丙烯酸乙二醇酯(EGDMA)和N, N-亚甲基双丙烯酰胺(BIS)为交联剂制备的BPA印迹材料进行对比。结果表明:以BPDMA为交联剂制备的材料印迹性能最佳,其印迹因子为5.32,吸附量为5.05 mg/g;以EGDMA和BIS为交联剂制备的材料印迹因子分别为1.41和1.45,吸附容量分别为0.96 mg/g和2.79 mg/g。将所制备材料应用于牛奶中BPA的富集检测,得到的加标回收率为95.0%～98.9%,相对标准偏差为3.5%～4.2%,表明得到的印迹材料可用于复杂体系BPA的选择性富集。     

含芯电子相关能修正的G2理论——G2(ful)

A general method in considering the core electronic correlation energies has been proposed and introduced into the standard Gaussian-2 (G2)[7] theory by small post-Hartree-Fock calculations. In this paper an additional MP2(FC)/6-31G(d) calculation over the G2 procedures is employed and examined in modification in modification to the flaw of Frozen-Core (FC) approximation of G2 vai eq.:
ΔE(full)= E[MP2(full)/6-31G(d)]-E[MP2(FC)/6-31G(d)]
where the MP2(full)/6-31G(d) energy has been obtained in the molecular geometry optimizations. This energy, ΔE(full), is directly added into the total G2 energy of a molecule in facilitating the effect of core electronic correlations for each molecule in chemical reactions. It has been shown that the over-all average absolute deviation for the 125 reaction energies of the G2 test set (test set 1) is slightly reduced from 5.09 to 5.01 kJ, mol(-1) while for the 55 D0 values, which have been used for the derivation of the A coefficient of the empirical High-Level...更多-Correction (HLC), it is also reduced from 4.99 [for both G2 and G2(COMPLETE)[8]]to 4.77 kJ• mol(-1). In addition, larger errors (greater than ±8.4 kJ•mol(-1) for the D0 energies are improved, especially for the largest error of the D0 of SO2 This error is reduced from 21.3 to 15.4 kJ. mol(-1), in which the experimental geometry would further reduce it by 7.1kJ.mol(-1)[8]. Another improvement is the absolute value of the A coefficient in HLC being reduced from 4.81 for G2 to 4.34 milli-hartrees which is believed to be useful in isolating the relationship between the HLC and the FC approximation. Modifications to the original G2 from this work is denoted as G2(fu 1) and thus the G2 (fu 1) total energy for a molecule is
E[G2(fu 1)]= E[G2]+Δ E(full)h
with a new ΔE[HLC] =-0.19α- 4.34nβ milli-hartree.     

氨·二甲胺·羧酸根合铂(Ⅱ)类配合物的合成、抗肿瘤活性和与DNA的键合水平

本工作设计合成了6种新型混胺羧酸根合铂(Ⅱ)类配合物[Pt((?)NH)(NH₃)X₂](a～f){其中，X=CH₃COO^-(乙酸根)，CH₃Cl COO^-(氯乙酸根)，CHCl₂COO^-(二氯乙酸根)，C₆H₅-COO^-(苯甲酸根)，p-CH₃-C₆H₄-COO^-(对甲基苯甲酸根)，p-CH₃O-C₆H₄-COO^-(对甲氧基苯甲酸根)}。通过元素分析、摩尔电导、差热分析、红外光谱、紫外光谱和 ¹H核磁共振谱对配合物进行了表征。通过MTT法研究了配合物的体外抗肿瘤活性，通过等离子体质谱研究了配合物与细胞DNA的键合量；体外抗肿瘤活性测试表明，配合物(a～f)对所测试的肿瘤细胞MCF-7、HCT-8和BGC-823没有表现出活性，但对EJ和HL-60两种肿瘤细胞表现出好的活性，而且配合物(d～f)对HL-60细胞的活性与顺铂相当。配合物(a～f)与HL-60细胞的DNA键合量与其作用浓度表现出一定的依赖性，从小到大的顺序为：cisplatin < c < b < a < f < e < d。