钯碳催化法合成4,4'-二甲基-2,2'-联吡啶

以4-甲基吡啶为原料, 钯碳催化合成了4,4'-二甲基-2,2'-联吡啶. 通过¹H NMR, GC-MS, 元素分析对产物进行了表征, 对催化反应进行了分析, 并且讨论了钯碳催化反应的机理.     

以2,2’-联吡啶-4,4’-二甲酸和2-甲基吡嗪[3,2-f：2’,3’-h]喹喔啉为配体的三维锰（Ⅱ）配位聚合物的合成、晶体结构和荧光性质

采用水热法合成了一个锰的配合物[Mn（bpydc）（Medpq）]_n（1）（H₂bpydc=2,2’-联吡啶-4,4’-二甲酸,Medpq=2-甲基吡嗪[3,2-f：2’,3’-h]喹喔啉）,并利用元素分析、红外光谱、紫外可见光谱、热分析和X-射线单晶衍射对其结构进行了表征。单晶结构分析表明配合物1属于正交晶系,Cc空间群,晶胞参数a=2.0316（4）nm,b=1.5645（3）nm,c=0.71926（14）nm,β=103.97（3）,V=2.2185（8）nm³,Z=4。配合物1是一个锰(Ⅱ)离子经由bpydc^2-连接形成的三维网络结构。配合物1的固体荧光光谱表明它具有很强的荧光性。应用Gaussian03W程序,在HF/LANL2DZ水平上对标题化合物的自然键轨道（NBO）进行了分析,结果表明Mn(Ⅱ)与配位原子间的价键类型都属于共价键范畴。     

4,4’-二葡萄糖苷-2,2’-二苯酚基异丙烷的合成

糖番(Glycophane)[1-3]是由醛糖化合物和芳基化合物反应生成的大环分子,其合成设计思想是在醛糖衍生物的结构单元中插入具有亲脂性的芳基化合物,使合成的受体分子既具有天然环糊精的手性环境,亲脂性空腔和良好的水溶性,又有合成环番的π电子作用特性,因此它兼有环糊精和环番的性质.     

4,4'-二[N-(芘-1-基亚烃基)胺芳基]-2,2'-双噻唑的合成

以硝基苯乙酮为原料,经α-溴代、缩合和还原3步反应制得4,4'-二氨芳基-2,2'-双噻唑(3a,3c,3e);3a,3c和3e分别与酰基芘经缩合反应合成了6个新型的希夫碱——4,4'-二[N-(芘-1-基亚烃基)胺芳基]-2,2'-双噻唑(5a~5f),其结构经1H NMR,FT-IR和元素分析表征。5a~5f的熔点均300℃。     

吡啶与HCl和CHCl3形成分子间红移氢键和蓝移氢键的理论研究

采用量子化学从头算的MP2方法, 分别在6-31G(d,p), 6-311+G(d,p)和AUG-cc-pVDZ基组下, 研究了复合物C5H5N…HCl(1), C5H5N…HCCl3(2)和C5H5N…HCCl3(3)的分子间氢键. 计算结果表明, 在复合物1中, HCl中Cl—H键伸长, 形成Cl—H…N红移氢键; 在复合物2中, HCCl3中C—H键伸长, 形成C—H…N 红移氢键; 在复合物3中, HCCl3中C—H键收缩, 形成C—H…π蓝移氢键. 自然键轨道(NBO)分析表明, 影响氢键红移和氢键蓝移主要有3个因素: n(Y)→σ*(X—H)超共轭作用、X—H键轨道再杂化和质子供体电子密度重排. 其中, 超共轭作用属于键伸长效应, 电子密度重排和轨道再杂化属于键收缩效应. 在复合物1和2中, 由于键伸长效应处于优势地位导致形成红移氢键; 在复合物3中, 由于键收缩效应处于优势地位导致形成蓝移氢键.     

2,2′-二甲基-4,4′-联苯二甲酸构筑的两个金属有机骨架

以2,2′-二甲基-4,4′-联苯二甲酸(H2L)为配体,采用溶剂热法合成了2个金属有机骨架:[Ni(μ₂-H₂O)(L)(DMF)(H₂O)]·0.5H₂O(1)和[Cd_2.5(L)(trz)₃(H₂O)₂]·2.5DMF(2)(DMF=N,N-二甲基甲酰胺,Htrz=1,2,4-三氮唑)。借助红外、热重、粉末和单晶X射线衍射对其进行了表征。单晶结构分析表明,1结晶于单斜晶系的P2₁/c空间群,镍离子处在拉长的[NiO₆]八面体中且分别被μ₂-H₂O和L^2-配体连接形成二维sql拓扑网络。2结晶于单斜晶系,C2/m空间群,含有3个不同的镉离子且均为扭曲的八面体构型。3个镉离子被三氮唑负离子以μ_1,2,4-桥连,在ab平面形成二维的kgd层,这些层再被L^2-配体沿c轴支撑形成(4,8)双节点的三维flu拓扑网络。热重分析表明,1和2的网络分别在390和230℃发生分解。     

新型4,4′-双取代-2,2′-二吡啶衍生物的合成及其光学性能

以4,4′-二甲基-2,2′-二联吡啶为原料,经酸化、酰氯化,酯化和缩合反应合成了两个新型的4,4′-双取代-2,2′-二吡啶衍生物—4,4′双(4,5-二苯基嗯唑-2-基)-2,2′-二吡啶(6a)和4,4′-双(4,5-二对甲氧基苯嗯唑-2-基)-2,2′-二毗啶(6b),其结构经1H NMR,IR和MS表征.用UV-Vis和荧光激发光谱测定了6a和6b的光学性能,结果表明,6a和6b的λmax分别为229 nm和238 nm;最大发射波长均为432 nm.     

叠氮乙烷二聚体分子间相互作用的理论研究

Energetic materials are aggregative and mixed systems. The intermolecular interactions play significantroles in the physical,chemical and explosive property. The study on intermolecular interactions of energetic materials has attracted wide attention. The organic azides are an important category of energetic materials and widely used in many fields. Ethyl azide is the simple model having the explosive property for the organic azides energetic compound. Ethyl azide monomer（Ⅰ）and all its possible stable clusters（Ⅱ,Ⅲ and Ⅳ）are fully optimized by ab initio method at the HF/6-311++G** level. Vibrational frequencies calculated to ascertain each structure are characterized to be the stable structure（no imaginary frequencies）. The proportions of correlated interaction energies to their total interaction energies ΔE（MP2）are 65.14%,63.76% and 65.62% for Ⅱ,Ⅲ and Ⅳ respectively. In addition,the basis set superposition error（BSSE）correction energies are 7.82,7.61 and 4.40 kJ/mol for Ⅱ,Ⅲ and Ⅳ respectively. The zero point energy （ZPE） corrections for the interaction energies are much less than those of MP2 electron correlation and BSSE correction energies. After MP2 electron correlation correction,BSSE and ZPE correction,the greatest corrected intermolecular interaction of the dimers is -10.45 kJ/mol. The charge redistribution mainly occurs on the adjacent N?H atoms between submolecules. The charge transfer between two subsystems is very small. Natural bond orbital（NBO）analysis is performed to reveal the origin of the interaction. Based on the statistical thermodynamic method,the standard thermodynamic functions,heat capacities（C0p）,entropies（S0m）and enthalpies（H0m）and the changes of thermodynamic properties from the monomer to dimer with the temperatures ranging from 200. 00 K to 800. 00 K have been obtained.     

3,6-二氨基-1,2,4,5-四嗪二聚体分子间相互作用的理论研究

在DFT-B3LYP/6-31G(d)水平下,求得3,6-二氨基-1,2,4,5-四嗪二聚体势能面上3种优化几何构型和电子结构。经基组叠加误差(BSSE)和零点能(ZPE)校正,求得分子间最大相互作用能为-38.88kJ/mol。电荷分布与转移分析表明,二子体系间的电荷转移很少,但接触点上氮原子和氢原子电荷变化比较大。由自然键轨道(NBO)分析揭示了分子间相互作用的本质。对优化构型进行振动分析,并基于统计热力学求得200.0~800.0 K温度范围从单体形成二聚体的热力学性质变化,发现二聚主要由强氢键所贡献,二聚过程在较低温度或常温下能自发进行。     

两个4,4′-二甲基-2,2′-联吡啶锰(Ⅱ)配合物切割DNA的动力学研究

对2个4,4′-二甲基-2,2′-联吡啶锰（Ⅱ）配合物在生理条件及H2O2的存在下对DNA切割的动力学进行了研究。结果表明,这2个配合物分别存在下的DNA切割反应具有相似的动力学反应特征。其中对超螺旋DNA切割成缺口DNA步骤,均表现为三级反应,即反应速率分别与底物DNA的浓度、配合物的浓度和H2O2的浓度的一次方成正比;同时得到了2个反应的速率常数、活化能（Ea）、活化焓（ΔH^≠）和活化熵（ΔS^≠）等动力学参数,并根据这些结果提出了一个可能的氧化切割反应机理。     

Hydrogen‐bonded complexes of nicotine with simple alcohols

Ab initio and density functional theory studies have been performed on the hydrogen‐bonded complexes of neutral and protonated nicotine with ethanol, methanol, and trifluromethanol to explore their relative stability in a systematic way. Among all the hydrogen‐bonded nicotine complexes considered here, protonated forms in nicotine–ethanol and nicotine–methanol, and neutral form in nicotine–trifluromethanol complexes have been found to be the most stable. In the former two complexes, the proton attached to the pyrrolidine nitrogen acts as a strong hydrogen bond donor, whereas the pyrrolidine nitrogen atom acts as a hydrogen bond acceptor in the latter case. Neutral complex of nicotine with trifluromethanol has been found to possess a very short hydrogen bond (1.57 Å) and basis set superposition error corrected hydrogen bond energy value of 19 kcal/mol. The nature of the various hydrogen bonds formed has been investigated through topological aspects using Bader's atoms in molecules theory. From the calculated topological results, excellent linear correlation is shown to exist among the hydrogen bond length, electron density, and its Laplacian at the bond critical points for all the complexes considered. The natural bond orbital analysis has been carried out to investigate the charge transfer in the nicotine alcohol complexes. In contrast to the blue shifting behavior that is generally exhibited by other C? H···O hydrogen bonds involving sp³ carbon atom, the C? H···O hydrogen bond in the protonated nicotine–ethanol and methanol complexes has been found to be proper with red shifting in nature. © 2011 Wiley Periodicals, Inc.     

Spectroscopic and theoretical study of vibrational spectra of hydrogen‐bonded tropolone

Theoretical simulation of the bandshape and fine structure of the ν_s stretching band is presented for tropolone‐H and tropolone‐D taking into account an adiabatic coupling between the high‐frequency O–H(D) stretching and the low‐frequency intra‐ and intermolecular OO stretching modes, and linear and quadratic distortions of the potential energies for the low‐frequency vibrations in the excited state of the O–H(D) stretching vibration. In order to determine the low‐frequency vibrations, the experimental spectra of the polycrystalline tropolone in the far‐infrared and the low‐frequency Raman range have been recorded for the first time. The experimental frequencies in the low‐frequency region are compared with the results of the HF/6‐31G** and Becke3LYP/6‐31G** calculations carried out for the tropolone dimer. ©1999 John Wiley & Sons, Inc. Int J Quant Chem 73: 275–282, 1999     

Theoretical Study on Hydrogen Interaction between 5-Fluorouracil and Glycine

The geometries,electronic structure,IR spectrum and other properties of hydrogen interaction between 5-fluorouracil and glycine were studied at the B3LYP/6-31+G* level.Single point energy calculations were executed at the B3LYP/6-311++G** and B3LYP/aug-cc-pvdz levels,and natural bond orbital (NBO) analysis was carried out at the B3LYP/6-31+G* level.Finally,the hydrogen bonds were discussed via AIM electronic density topology analysis.     

线性阳离子NC2nN+(n=1-5)的结构和电子光谱的理论研究

运用RCCSD(T)的研究了线性阳离子NC2nN+(n=1-5)的基态平衡几何构型.结果表明,这些物种都具有单-叁键交替的结构.采用CASPT2方法,得到了体系的偶极允许跃迁的垂直激发能分别是2.26 eV,2.09 eV,1.91 eV,1.72 eV和1.56 eV,与可利用的实验值(2.15 eV,2.08 eV...     

NTO二聚体分子间相互作用的理论研究

在DFT-B3LYP/6-311＋＋G**水平上求得NTO二聚体势能面上六种优化构型和电子结构. 经基组叠加误差(BSSE)和零点能(ZPE)校正, 求得分子间最大相互作用能为－53.66 kJ/mol. 二子体系间的电荷转移很少. 由自然键轨道分析揭示了相互作用的本质. 对优化构型进行振动分析, 并基于统计热力学求得200.0～800.0 K温度范围从单体形成二聚体的热力学性质变化. 发现二聚主要由强氢键所贡献, 但结合能大小并不为氢键所完全决定. 二聚过程在较低温度或常温下能自发进行.     

Influence of calculation level and effect of methylation on axial/equatorial equilibria in piperidines

A detailed conformational analysis was performed on the chair forms of piperidine, N-methylpiperidine, and some methylated derivatives using Hartree–Fock (HF) and MP2 ab initio methods with several basis sets (from 3–21G to 6–311++G**), and the most widely used semiempirical approaches (MNDO, AM1, and PM3). It was found that the use of polarized basis sets at the HF level is adequate enough for the prediction of conformational preferences in the axial/equatorial equilibrium of the N-R group in piperidines. On the other hand, the inclusion of electron correlation becomes necessary for predicting the axial/equatorial energy differences of the equilibria of the methyl group. Semiempirical methods are not recommended, because AM1 and PM3 predict opposite stabilities to those obtained experimentally and MNDO ring geometries are systematically too flat. The origin of the conformational stabilities was interpreted in terms of the natural bond orbital analysis of the HF/6–31G** wave functions. The equatorial preferences in the N-H equilibria is mainly due to lower Lewis energies, although delocalization of the nitrogen lone pair is favored in N-H axial forms. N-Methylation increases the equatorial M-Me preferences, because the Lewis energy of axial N-Me forms increases due to larger 1,3-diaxial interactions. Geometrical trends associated with the delocalization of the nitrogen lone pair and with interactions between the introduced N-R and C-Me groups were discussed and related to the degree of planarity of the six-membered ring by means of the puckering coordinates defined by Pople and Cremer. © 1998 John Wiley & Sons, Inc. J Comput Chem 19: 961–976, 1998     

Quantum Study on the Hydrogen Bonding Interaction of Luteolin-（CH_3OH）_n

The optimized geometries and vibration frequencies of luteolin,methanol and luteolin-(CH3OH)n complexes have been investigated by density functional theory using B3LYP method.Four stable luteolin-CH3OH complexes,six stable luteolin-(CH3OH)2 complexes and four stable luteolin-(CH3OH)3 complexes have been obtained.The theories of atoms in molecules(AIM) and natural bond orbital(NBO) have been used to analyze the hydrogen bonds of these compounds,and their interaction energies corrected by basis set superposition error are between-8.046 and-76.124 kJ/mol.The calculation results indicate strong hydrogen bonding interactions in the luteolin-(CH3OH)n complexes.Then the nuclear magnetic resonance(NMR) and electronic absorption spectrum of luteolin have been calculated,and the results are in agreement with the experimental data.     

Theoretical Study on the Intermolecular Interactions of Tetrazole Dimers

1 INTRODUCTION Tetrazole and its derivatives are widely applied in the fields of agriculture, biology, chemistry, phar- macology and photographic technology, and they play significant roles in the science and technology as well as national defence[1]. In the past, the res- earches were focused on the molecular geometries, electronic structures, IR, thermodynamic properties, tautomerization, pyrogenation and sensitivity of tetrazole compounds[1～5]. However, study of tetra- zole dimers ha…     

Theoretical Investigation on Interaction between Guanine and Luteolin

The interacting patterns of the luteolin and guanine have been investigated by using the density functional theory B3LYP method with 6-31＋G＊ basis set. Eighteen stable structures for the luteolin-guanine complexes have been found respectively. The results indicate that the complexes are mainly stabilized by the hydrogen bonding interactions. Meanwhile, both the number and strength of hydrogen bond play important roles in determining the stability of the complexes which can form two or more hydrogen bonds. Theories of atoms in molecules and natural bond orbital have also been utilized to investigate the hydrogen bonds involved in all the systems. The interaction energies of all the complexes which were corrected by basis set superposition error are 6.04-56.94 kJ/mol. The calculation results indicate that there are strong hydrogen bonding interactions in the luteolin-guanine complexes. We compared the interaction between luteolin and four bases of DNA, and found luteolin-thymine was the strongest and luteolin-adenine was the weakest. The interaction between luteolin and DNA bases are all stronger than luteolin-water.