Comparison of quantum chemistry calculation methods of nucleic acid base-quartets

Nine base-quartets were calculated by six semi-empirical methods and ab initio Hartree-Fork method using STO-3G basis set. The results showed that PM3 method can be use to calculate base quartets, the results of PM3 calculations are close to the ab initio

A STUDY ON CH5O+ IONS IN GAS PHASE CID EYPERIMENT AND QUANTUM CHEMISTRY CALCULATION

The structures of CH5O+ from two different reactions which are protonation of CH3OH from the above two pathways possess the same structures, CH3OH2+. The value of kinetic energy release for the metastable decomposition CH2OH3+-> CH2OH+ + H-2 determined from the experiment is in good agreement with that from theoretical calculations. The transition state of above reaction were disscussed.

Gas-phase Ion-molecular Reactions of C-60 and C-70 with Acetone and Quantum Chemistry Study

Gas-phase ion-molecular reactions of C-60 and C-70 with the ion system of acetone have been studied in this paper. The ions of protoned and acetylized C-60 and C-70 were formed by the reactions of C-60 and C-70 with some ions which existed in the ion system when mass spectrometer worked on chemical ionization conditions. The reactivity of C-70 is greater than that of C-60. Results of quantum chemical calculation for the adduct ions showed a sigma bond between the acyl carbon atom and C-60 may be Formed. These results will provide some valuable informations on the condense-phase acetylization of C-60.

Synthesis and quantum-chemistry analysis on novel triazole compounds containing ester group

Nine novel triazole compounds containing ester group were designed and synthesized. Their structures were confirmed by elemental, H-1 NMR and IR analyses, and optimized by means of DFT (Density Functional Theory) method at the B3LYP/6-31G* level. Based on the quantum-chemical calculation results and the Pearson coefficients between FA and quantumchemical parameters, V, LogP, MR and E-HOMO are shown to be the important relative factors which affect FA of the title compounds.

Accurate quantum mechanical calculation for the N+OH reaction

Accurate three-dimensional time-dependent quantum wave packet calculations for the N+OH reaction on the (3)A' potential energy surface [Guadagnini, Schatz, and Walch, J. Chem. Phys. 102, 774 (1995)] have been carried out. The calculations show for the first time that the initial state-selected reaction probabilities are dominated by resonance structures, and the lifetime of the resonance is generally in the subpicosecond time scale. The calculated reaction cross sections indicate that they are a decreasing function of the translational energy, which is in agreement qualitatively with the quasiclassical trajectory calculations. The rate constants obtained from the quantum mechanical calculations are consistent with the quasiclassical trajectory results and the experimental measurements. (C) 2003 American Institute of Physics.

Aminic nitrogen-bearing polydentate Schiff base compounds as corrosion inhibitors for iron in acidic media: A quantum chemical calculation

Quantum chemical calculations based on DFT method were performed on three polydentate Schiff base compounds (PSCs) used as corrosion inhibitors for iron in acid media to determine the relationship between the molecular structure of PSC and inhibition efficiency. The structural parameters, such as the frontier molecular orbital energy HOMO (highest occupied molecular orbital) and LUMO (lowest unoccupied molecular orbital), the charge distribution of the studied inhibitors, the absolute electronegativity (chi) values, and the fraction of electrons (Delta N) transfer from inhibitors to iron, were also calculated and correlated with inhibition efficiencies. The results showed that the inhibition efficiency of PSCs increased with the increase in E-HOMO and decrease in E-LUMO-E-HOMO; and the areas containing N atoms are most possible sites for bonding the metal iron surface by donating electrons to the metal. (C) 2007 Elsevier Ltd. All rights reserved.

光合放氧结构与机理的理论探索

光合放氧研究近十年来已有重要进展，但在该领域仍有很多重要问题待研究。本论文工作主要是对光系统氧化侧与光合放氧密切相关的组分的结构和性能进行理论和模拟研究，工作可概括如下： (一)、放氧中心结构和性能的探索。 1、对放氧中心Mn202单元与配体组氨酸、H2O和Cl等结合方式的理论研究显示：(a)、组氨酸和H20分子均可能与Mn202平面垂直，彼此保持较大的距离，且结合在不同的Mn离子上;(b)、2个H2O分子可能结合在不同Mn202单元上。 2、对Mn簇核心骨架的理论研究显示有必要引入新的Ca、Cl结合方式，以防止因两个Mn202单元线性化而导致2个H2O分子结合位点远离。 (二)、次级电子给体Tyr_z和Tyr_D的结构与功能。 对次级电子给体Tyr_z和Tyr_D进行精确量子化学研究显示：(a)、在中性条件下，Tyr_D和Tyr_z均只与组氨酸通过氢键作用;(b)、当失去电子后，结构发生明显变化，导致正电荷主要集中在组氨酸上，自由基主要集中在Tyr上;(c)、第三组分(H_20分子或羧基等)的引入使中性体系不容易给出电子;(d)、结合最新文献报导，推测Tyr_D~+和Tyr_z~+除与组氨酸作用外还可能分别与水和羧基作用。 (三)、原初电子给体的理论和模拟研究。 1、对紫细菌原初电子给体P_(870)的理论研究显示：(a)、双分子结构比单分子结构稳定;(b)、电荷分离之后，原初电子给体原有的空间结构不再是稳定的构型，它会向能量和化学活性均更低的构型转变。在光合细菌的原初电子给体P870中，这种转变可通过C3位的乙酰基旋转使其氧原子与另一个细菌叶绿素分子的镁原子相互作用使P870+•的总能量和化学活性明显降低。推测这种构型转变对于防止原初反应过程中的电荷重组、维持光能的高效转化有重要意义。提出了原初反应过程中结构动态变化的新观点，利用这一观点可对光合细菌原初反应动力学研究所观测到的慢过程及蛋白质微环境对原初电子给体和原初反应都有重要影响等实验现象给予较好的解释。 2、对光系统II原初电子给体P680的结构进行理论探讨，提出了两个叶绿素a分子平面间夹角为50.0±2.5°时能量最低的夹角模型。 3、采用N-甲基咪唑(C4H6N2)模拟生物体内的组氨酸，通过观测CCL4中的Chla与C4H6N2反应的吸收、CD和MCD光谱得到以下结论：(a)、在纯CCL4中，每个Chla处于5配位状态，Chla形成不对称的双聚体，彼此之间存在较强的偶合作用。提出两个Chla通过不等价的2个Mg-O配位键(O分别来自于C131位的酮基和C17位酯基的C=O)连接为紧密双体结构;(b)、当C4H6N2／Chla = 0.5和1时，其吸收、CD和MCD光谱均发生明显变化，两个Chla之间的偶合作用明显减弱，但此时仍为双聚体。推测C4H6N2首先取代原紧密双体结构中Mg-O酯键，进而取代Mg-O酮键，最后两个Chla分子通过两个Mg…O弱相互作用连接为松弛的双体结构，该模型与理论获得的P_(680)的结构相似。 在上述研究的基础上，提出了包括放氧中心外围配体和TyrZ在内的放氧中心结构新模型。在新结构模型中，2个H2O分子不对称地结合于“C”形结构开口端两个低价的Mn1II和Mn4III上，并保持较大距离;两个组氨酸的咪唑环通过N原子与两个高价的Mn2IV、Mn3IV结合;Cl结合于MB4TM，并与Ca相连;Ca通过O桥和COO-相连使两个Mn202单元保持特定空间构型。TyrZ通过组氨酸(D1-His190)与Mn簇作用。此外，新模型尝试着在O桥上引入质子。放氧中心结构及其邻近环境(包括TyrZ和TyrD)整体处于中性状态。 同时还提出了新的放氧机理，认为电子和质子的释放非同步进行，并首次明确提出两个水分子的不对称氧化和结构动态变化等观点。认为Ca在维持放氧中心的结构方面担负重要作用，C1与Mn离子之间的亲核作用变化是放氧中心结构变化的关键。

Theoretical study on the formation mechanism of Iso-CH2I-Cl

The dissociation and isomerization reaction mechanism on the ground-state potential energy surface for CH2ClI are investigated by ab initio calculations. It is found that the isomer iso-CH2I-Cl can be produced from either the recombination of the photodissociation. fragments or the isomerization reaction of CH2ClI, rather than from isomerization reaction of iso-CH2Cl-I. Further explanations of experimental results are also presented. (C) 2003 Wiley Periodicals, Inc.

Nicotinic acid as a nontoxic corrosion inhibitor for hot dipped Zn and Zn-Al alloy coatings on steels in diluted hydrochloric acid

The inhibition effect of nicotinic acid for corrosion of hot dipped Zn and Zn-Al alloy coatings in diluted hydrochloric acid was investigated using quantum chemistry analysis, weight loss test, electrochemical measurement, and scanning electronic microscope (SEM) analysis. Quantum chemistry calculation results showed that nicotinic acid possessed planar structure with a number of active centers, and the populations of the Mulliken charge, the highest occupied molecular orbital (HOMO), and the lowest unoccupied molecular orbital (LUMO) were found mainly focused around oxygen and nitrogen atoms, and the cyclic of the benzene as well. The results of weight loss test and electrochemical measurement indicated that inhibition efficiency (IE%) increased with inhibitor concentration, and the highest inhibition efficiency was up to 96.7%. The corrosion inhibition of these coatings was discussed in terms of blocking the electrode reaction by adsorption of the molecules at the active centers on the electrode surface. It was found that the adsorption of nicotinic acid on coating surface followed Langmuir adsorption isotherm with single molecular layer, and nicotinic acid adsorbed on the coating surface probably by chemisorption. Nicotinic acid, therefore, can act as a good nontoxic corrosion inhibitor for hot dipped Zn and Zn-Al alloy coatings in diluted hydrochloric acid solution. (c) 2007 Elsevier Ltd. All rights reserved.

Calculation of chemical bond parameters in La1-xCaxCrO3 (0.0 <= x <= 0.3)

The chemical bond parameters, that is, bond covalency, bond susceptibility, and macroscopic linear susceptibility of La1-xCaxCrO3 (x = 0.0, 0.1, 0.2, 0.3) has been calculated using a semiempirical method. This method is the generalization of the dielectric description theory proposed by Phillips, Van Vechten, Levine, and Tanaka (PVLT). In the calculation of bond valence, two schemes were adopted. One is the bond valence sums (BVS) scheme, and the other is the equal-valence scheme. Both schemes suggest that for the title compounds bond covalency and bond susceptibility are mainly influenced by bond valence and are insensitive to the Ca doping level or structural change. Larger bond valences usually result in higher bond covalency and bond susceptibility. The macroscopic linear susceptibility increases (only slightly for BVS scheme) with the increasing Ca doping level. (C) 1999 John Wiley & Sons, Inc.