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1.
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(MoKα)=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。 相似文献
2.
1,4二环己基取代六元瓜环与Na(Ⅰ)自组装实体的合成与晶体结构 总被引:1,自引:0,他引:1
A novel complex of a new 1,4-dicyclohexyl cucurbituril(DCYQ[6]) with sodium(Ⅰ) ion was synthesized, and the crystal structure was determined by X-ray diffraction technique. In this self-assembled entity both the cavity interaction of DCYQ[6] included a nitrate anion and the portal interaction of the dipole carbonyls of DCYQ[6] with sodium cations lead to form self assembled molecular capsules. The crystal structure of the entity shows a packing of the self assembled molecular capsules connected by hydrogen bonds of water molecules. CCDC: 271400. 相似文献
3.
Interaction between tetramethylcucurbit[6]uril (TMeQ[6], host) and the hydrochloride salt of α-furaldehyde-isonicotinyl-hydrazone hydrochloride (FIHH+, guest) was investigated using X-ray crystallography and spectroscopic methods. X-ray crystallography showed that the π–π stacking effect and hydrogen bonding resulted in the formation of a dumbbell-shaped supramolecule which contained two FIHH+@TMeQ[6] host–guest inclusion complexes. The host–guest interaction provided identifiable changes in the vibrational frequencies in the IR spectra. 1H NMR spectral analysis established a similar interaction model and revealed that TMeQ[6] preferred to include the furan moiety over the pyridine moiety of the FIHH+ guest molecule. Absorption spectrophotometric analysis suggested that the host and guest interact in a ratio of 1:1 with a stability constant K s = (3.52 ± 0.74) × 106 l mol? 1.pH titration confirmed that the host–guest interaction led to a clear change in the protonation constant of the title guest. Quantum chemical calculations were used to determine the possible mechanism of formation of the dumbbell-shaped complex. 相似文献
4.
The crystal structures of a pair isomers of [Co(3,3-tri)(amp)Cl][ZnCl4] (here 3,3-tri = N-(3-Aminoprop- yl)-1,3-propanediamine; amp=2-(Aminomethyl)pyridine) have been determined by single crystal X-ray diffrac-tion. They are the epimers with the only difference of the orientation of the Sec-NH proton in 3,3-tri ligand. The crystals with the anti-epimer (m1[ZnCl4]·CH3OH·H2O) are monoclinic, space group C2/c with eight molecules in a unit cell of dimensions a=30.401(5)?,b=8.0469(13)?,c=18.817(3)?,β=93.346(3)°,V=4595.3(12)?3,Dc=1.708g·cm-3,Z=8,F000=2416,R=0.0462,Rw=0.1304. The crystals of the syn-epimer (m2[ZnCl4]·H2O) are triclinic, space group P1 with two molecules in a unit cell of dimensions a=8.9752(12)?,b=9.8855(12)?,c=12.6886(16)?,α=89.228(3)°,β=76.447(2)°,γ=80.428(3)°,V=1078.8(2)nm3,Dc=1.721g·cm-3,Z=2,F000=568,R=0.0313,Rw=0.0929. The crystal parameters, such as bond lengths and angles, are well consistent with the data of an ab initio computational result (RHF/LANL2DZ opti-mised structure). The average error for bond length is about 1.6%, only two of them in the isomer m3 (Co-N2 and Co-N4) are over 3%, (3.09% and 4.28% respectively). The errormax for bond angle is 2.52%, the bond angles with an over 2% error are only 3.6% out of all bond angles. 相似文献
5.
以七元瓜环(Q[7])和新型椭圆型改性瓜环———对称四甲基取代六元瓜环(TM eQ[6])为主体,4,4′-联吡啶的盐酸盐(44)以及N,N′-二甲基4,4′-联吡啶的盐酸盐(dm44)为客体的主客体相互作用进行了考察.实验结果表明,Q[7]与客体44及dm44作用体系中,客体为了更有效地被主体Q[7]包结,在Q[7]内腔中呈倾斜状分布的几率最高.用核磁共振、循环伏安以及紫外吸收光谱对实验结果进行了印证和补充,验证了TM eQ[6]与客体44及dm44可发生较强的相互作用,形成一维的自组装超分子结构.核磁共振以及循环伏安方法的实验结果表明,没有观察到Q[6]与客体44及dm44的明显作用,而紫外吸收光谱方法证实,Q[6]与客体44确实存在一定的相互作用,比较主客体的结构特征,该作用体系也可能存在自组装的一维超分子结构等多种作用形式. 相似文献
6.
瓜环对氨基酸的分子识别研究 总被引:4,自引:0,他引:4
使用1H NMR和UV-Vis光谱法研究了七、八元瓜环对九种天然氨基酸盐酸盐的分子识别作用. 结果表明, 瓜环对芳香侧基取代的L-酪氨酸、L-色氨酸、L-苯丙氨酸均能进行有效识别, 而侧链上不带芳香基团的氨基酸, 如L-组氨酸、L-谷氨酸、L-蛋氨酸、L-缬氨酸、L-白氨酸、L-丙氨酸, 与这些瓜环的作用相对较弱. 对于七元瓜环, 主客体间都以1∶1化学计量比形成包结物, 并得到它们相互作用的稳定常数; 八元瓜环与L-酪氨酸及L-色氨酸也以1∶1形成包结物, 而与L-苯丙氨酸以1∶2形成包结物. L-酪氨酸、L-色氨酸和L-苯丙氨酸荧光性质研究表明, 七、八元瓜环既可成为这些氨基酸荧光性质的增敏试剂, 也可成为它们荧光淬灭试剂, 这与氨基酸的结构有关. 相似文献
7.
采用三元胺及二元胺混配方法进行[Co(N)5Cl]2+配合物的合成,分离出分别由三元胺配体和二胺配体构成的2个钴胺配合物。晶体结构测定表明由三元胺配体构成的钴胺配合物中,三元胺为N-(2-Aminoethyl)-1,3-propanediamine(记为2,3-tri),但并未以六胺形式配位[Co(N)6]3+,而以六胺五配位形式形成[Co(N)6Cl]2+,这 相似文献
8.
1,10-邻菲咯啉取代苷脲及其一维Ag(Ⅰ)配位聚合物的合成及晶体结构 总被引:1,自引:0,他引:1
合成了1,10-邻菲咯啉取代苷脲(L),并用L与硝酸银反应得到一维配位聚合物[AgLNO3]n,利用X-射线衍射方法测定了它们的晶体结构。L:单斜晶系,空间群P21/c,a=1.8545nm,b=1.2504nm,c=1.2818nm,β=108.476°,V=2.8192nm3,Z=7,F(000)=1176,finalGOF=1.093,R1=0.060,wR2=0.1654,。[AgLNO3]n:正交晶系,空间群Pca21,a=1.55149nm,b=1.04907nm,c=1.15892nm,V=1.8863nm3,Z=4,F(000)=1024,finalGOF=1.038,R1=0.042,wR2=0.110。晶体结构表明配体L与Ag髣形成了一维配位聚合物[AgLNO3]n。 相似文献
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10.
Interactions of cucurbit[7]uril (Q[7] host) with guest adenine (g1), adenosine (g2) and 2′,3′-o-isopropylideneadenosine (g3) were studied in details by 1H NMR, UV absorption spectroscopy, fluorescence spectroscopy and high performance liquid chromatography (HPLC) methods. We found that the suitable pH range for interaction was between 1 and 7, and the optimal pH range was between 2 and 4. The 1H NMR analysis indicated that Q[7] selectively interacted with the adenine moiety of the guests g1 and g2, while Q[7] selectively interacted with the D-ribose sugar ring moiety of the guest g3. Moreover, 1H NMR spectra showed that the exchange between the bound guest and the free guest was fast on the NMR time scale for the Q[7]-g1 and Q[7]-g2 systems. However, an obvious equilibrium between the bound host/guest and the unbound host/guest were observed in the Q[7]-g3 complex. Several methods were used to determine quantitatively the stability of the three host–guest inclusion complexes formed between Q[7] and the guests. The formation constants by UV and fluorescence were 1.90 × 105 L mol? 1 and 1.34 × 105 L mol? 1 for Q[7]-g1, 9.41 × 104 L mol? 1 and 4.24 × 104 L mol? 1 for Q[7]-g2, 4.50 × 104 L mol? 1 and 3.62 × 104 L mol? 1 for Q[7]-g3, respectively. HPLC method was also introduced to explore the interactions between Q[7] and the adenine and its derivatives. The formation constants of the host–guest inclusion complexes, as determined by HPLC, were 6.76 × 104 L mol? 1 for Q[7]-g1, 1.80 × 104 L mol? 1 for Q[7]-g2, 3.01 × 104 L mol? 1 for Q[7]-g3 respectively. Our study suggested that Q[7] could be a suitable host for the delivery of bioactive molecules, such as the adenine and its derivatives. 相似文献