超价化合物NLi4^n＋和OLi4^n＋电子结构和性质

以６－３１Ｇ＾＊基组利用ＨＦ、ＭＰ２和ＤＦＴ方法优化了超价化合物ＮＬｉ４＾ｎ＋和ＯＬｉ４＾ｎ－的几何构型。研究结果表明，ＭＰ２和ＤＦＴ法计算出的ＯＬｉ４分子解离出Ｌｉ和Ｌｉ２的反应能与已有的实验值吻合，对于ＮＬｉ４分子，得到其解离出Ｌｉ和Ｌｉ２的反应能分别为１９１．７８和５１５．３７ｋＪ／ｍｏｌ（ＭＰ２值）。并预测了ＯＬｉ４＾ｎ＋和ＮＬｉ４＾ｎ＋分子的基振动频率。     

双核金属酞菁类化合物催化脱硫机理研究Ⅵ──电子转移机制和催化脱硫机理

提出了双核金属酞菁类化合物催化Ｈ_２Ｓ液相氧化反应的催化电池电子转移机制，即借助于催化剂分子自身歧化所形成的催化电池Ｍ（Ⅰ）Ｐｃ－ＰｃＭ（Ⅲ）实现底物（ＨＳ~－）与分子氧间的电子转移，其反应过程为阴极反应：Ｏ_２＋Ｍ（Ⅰ）Ｐｃ→Ｏ_２~－＋Ｍ（Ⅱ）Ｐｃ，阳极反应：ＨＳ－＋Ｍ（Ⅲ）Ｐｃ→ＨＳ·＋Ｍ（Ⅱ）Ｐｃ。这一电子转移过程也是决定整个反应的控制步骤，从而导致催化反应按自由基历程进行。     

卟啉化合物电化学性质研究 Ⅰ.5,10,15,20-四-(4-乙酰氧基苯)卟吩及其Cu、Zn、Fe、Co、Ni配合物的合成及循环伏安研究

本文报道了５，１０，１５，２０－四（４－乙酰氧基苯）卟吩（Ｔ（４ＡＯＰ）Ｐ）及其Ｃｕ，Ｚｎ，Ｆｅ，Ｃｏ，Ｎｉ配合物的合成及其在ＣＨ２Ｃｌ２－０．１ｍｏｌ／ＩＴＢＡＰ体系中的循环伏安（ＣＶ）。研究结果。ＣＶ实验表明：Ｃｕ＾２＾＋，Ｚｎ＾２＾＝，Ｎｉ＾２＾＋离子以稳定的＋２价存在于Ｔ（４ＡＯＰ）Ｐ中，电子转移反应在卟啉环上进行，而Ｆｅ＾３＾＋，Ｃｏ＾２＾＋离子在氧化还原过程中发生价态变化。实验发现...     

二（2,4,4—三甲基戊基）膦酸从盐酸介质中萃取钍（Ⅳ）的机理

研究了二（２，４，４－三甲基戊基）膦酸的正辛烷溶液从盐酸介质中萃取钍的机理。在未控制离子强度下，萃取平衡反应为：Ｔｈ＾４＋＋Ｃｌ＾－＋３（ＨＡ）２（ｏ）→ＴｈＣｌＡ３（ＨＡ）３（ｏ）＋３Ｈ＾＋。在控制离子强度为１．０ｍｏｌ／Ｌ时，萃取反应为Ｔｈ＾４＋＋２Ｃｌ＾－＋３（ＨＡ）２（Ｏ）→ＴｈＣｌ２Ａ２．（ＨＡ）４（Ｐ）＋２Ｈ＾＋。用饮和法确定的萃合物组成为ＴｈＣｌＡ３．计算了萃取反应的平衡常数及热力学     

镧系元素Dawson结构钨钒磷四元杂多配合物的合成,表征以…

合成了通式为Ｋ１５Ｈ３〔Ｃｅ（Ｐ２Ｗ１６ＶＯ６１）２〕．６１Ｈ２Ｏ、Ｋ１５Ｈ４〔Ｌｎ（Ｐ２Ｗ１６ＶＯ６１）２〕．ｘＨ２Ｏ（Ｌｎ＝Ｌａ＾３＋，Ｐｒ＾３＋，Ｎｄ＾３＋，Ｓｍ＾３＋，Ｅｕ＾３＋，Ｇｄ＾３＋，Ｄｙ＾３＋，Ｙｂ＾３＋）的９种镧系元素Ｄａｗｓｏｎ结构的钨钒磷四元杂多配合物，并用ＩＲ、ＵＶ、ＮＭＲ、ＥＳＲ、ＸＲＤ、ＴＧ－ＤＴＡ等对其结构和性质进行子研究。该类配合物具有与Ｋ１６〔Ｃｅ（Ｐ２Ｗ１７Ｏ     

2,9,16,23—四硝基酞菁镍（Ⅱ）的合成和光谱性质研究

在强有机碱１，８－二氮杂双环［５．４．０］＋－－７烯（简称ＤＢｕ）存在的醇溶剂中，利用“分子碎片”（４－硝基邻苯二腈）与金属离子通过模板反应的新方法合成了２，９，１６，２３－四硝基酞菁镍（Ⅱ）配合物（简称ＴＮＰｃＮｉ，Ｐｃ＝Ｃ３２Ｈ１２Ｎ８），通过元素分析和ＩＲ光谱进行了表征，研究了配合物在ＤＭＳＯ、ＤＭＦ、Ｐｙ、ＣＨ２Ｃｌ２和Ｃ６Ｈ１２中的电子吸收光谱及荧光光谱。     

β—型过渡元素三取代钨锗杂多配合物的合成,表征和催化活性

报道Ａ－β－Ｍ＇ｘＨｙ－［ＧｅＷＯＭ３（Ｈ２Ｏ）３Ｏ３７］．ｎＨ２Ｏ（Ｍ＝Ｃｒ＾３＾＋，Ｃｏ＾２＾＋，Ｎｉ＾２＾＋，Ｃｕ＾２＾＋；Ｍ＇＝Ｂｕ４Ｎ＾＋，Ｋ＾＋）的立体有择合成法制备及红外和远红外光谱，紫外和可见光谱和循环伏安，磁化率和磁矩，ＸＰＳ，ＥＳＲ以及催化活性等研究结果。     

析相光度法测定铜（Ⅱ）的研究

本文研究了Ｃｕ（Ⅱ）－ＰＥＧ（聚乙二醇－２０００）－Ｚｉｎｃｏｎ（锌试剂）－（ＮＨ４）２ＳＯ４体系的析相光度法并应用于测定Ｃｕ（Ⅱ）。最宜酸度为ｐＨ５．５～８．５（ＫＨ２ＰＯ４－Ｋ２ＨＰＯ４）缓冲溶液）其络合物的最大吸收位于６１０ｎｍ，表观摩尔吸光系数为４．０×１０＾４Ｌ．ｍｏｌ＾－１．ｃｍ＾－１，Ｃｕ（Ⅱ）浓度在０～１．５ｍｇ／Ｌ范围内服从比尔定律，铜与Ｚｉｎｃｏｎ形式组成为１：２的稳定的蓝色络     

四元交互体系Li^＋,k^＋／Cl,SO^2—4—H2O50,75℃相平衡研究

采用等温溶解平衡法测了四元交互体系Ｌｉ＾＋，Ｋ＾＋／Ｃｌ，ＳＯ＾２－４－Ｈ２Ｏ５０，７５℃平衡溶液的物化物质（密度，粘度，折光率），该四元交互体系５０，７５℃的溶解度等温图有５个相区：即Ｌｉ２ＳＯ４．Ｈ２Ｏ，ＫＬｉＳＯ４，ｋｃｌ，ｋ２ｓｏ４，ｌＩｃＬ．Ｈ２Ｏ，７条单变量曲线，３个共饱点，其中ＬｉＳＯ４．Ｈ２Ｏ＋ＫＣＬ＋ＬｉＣｌ．Ｈ２Ｏ为一致零变量点，用我们以往提出的经验公式处理了平衡溶液的密度和折     

（H2O）^＋n（n=1,2）的几何结构优化和振动光谱分析

采用Ｈａｒｔｒｅｅ－Ｆｏｃｋ和ＭＰ２方法在多种水平下优化了（Ｈ２Ｏ）＾＋ｎ（ｎ ＝１，２）的几何结构，并进行了振动光谱分析。结果表明：对（Ｈ２Ｏ）＾＋采用ＭＰ２／６－３１１＋＋Ｇ（ｄ，ｐ）可得出最满意的结论。     

Spectroscopic probing of the acid-base properties and photosensitization of a fluorinated phthalocyanine in organic solutions and liposomes

A perfluorinated derivative of phthalocyanine was synthesized as the free base, hexadeca-(2,2,2-trifluoroethoxy) phthalocyanine (H2F48Pc), and as a zinc complex, hexadeca-(2,2,2-trifluoroethoxy)-phthalocyaninatozinc (ZnF48Pc), and their spectroscopic and photochemical properties were studied. The absorption bands are shifted bathochromically relative to simple phthalocyanines, exhibiting the longest wavelength band near 735 nm (H2F48Pc) and 705 (ZnF48Pc). The solvatochromism of both compounds was modeled by Reichardt's ET(30) parameter and Kamlet, Abboud and Taft multiparameter approach. The former, simpler, model was found to be adequate. We found that H2F48Pc undergoes unique basic and acidic titrations in organic solvents. These titration processes are accompanied by spectral changes that are explained on the basis of the chromophore's symmetry. Singular value decomposition was employed to resolve the spectra into the contributions of the species at various stages of protonation and to obtain the equilibrium constants. Nuclear magnetic resonance spectra (1H, 19F and 13C) for the free base were obtained in a tetrahydrofurand8 solution. The carbon spectrum, taken as a function of temperature, provided evidence for the presence of a tautomerization process, which switches the two internal hydrogens between the four central nitrogen atoms. As far as we know, this is the first report of the measurement of the free energy of activation for such process (delta G = 10.6-11.4 kcal mol-1 between 217 and 330 K) for a phthalocyanine, in solution. Like most other phthalocyanines these two compounds also act as photosensitizers and as generators of singlet molecular oxygen. The absolute quantum yields (phi delta) for ZnF48Pc was 0.58 +/- 0.01 in benzene and 0.35 +/- 0.01 in lipid vesicles. H2F48Pc had lower yields, 0.16 and 0.005, respectively. Either protonation or deprotonation of the pyrrole nitrogens in H2F48Pc lowered the phi delta.     

三吡啶胺Zn(II)配合物作为碳酸酐酶模拟物的研究

The protonation constant of TPA and, in its 1:2 (Zn(II):L) complex, the deprotonation constant of H2O coordinated to Zn(II) have been determined by pH titration at 25±0.1℃, I=0.1 mol•dm-3 KNO3. They are 4.29 and 7.8, respectively. It is worthy to be noted that the H2O bound to Zn(II) could deprotonate easily near physiology pH. A kinetic study of 4-nitrophenyl acetate(NA) hydrolysis by Zn(II)(TPA)2•H2O complex in 10%(v/v) CH3CN at 25±0.1℃, I=0.1 mol•dm-3 NaClO4, and pH range 6~9(20mmol•dm-3 Tris buffer)，has been carried out. The maximum value of second-order rate constant k((mol•dm-3)-1•s-1) obtained is 3.32×10-2. Thus, Our present model study shows that, like the Zn(II)-enzymes, the Zn(II)-bound OH- in complex can act as a good nucleophile agent to the carbonyl carbons, the Zn(II) complex of TPA is a good model for carbonic anhydrase.     

钛与3,5-DBSAF反应的荧光动力学及配合物结构

The fluorescence kinetic characteristics of binary complex Ti-3,5-dibromosalicylfluorone (Ti-3,5-DBSAF) was studied by stopped-flow fluorescence kinetic method, the results show that its rate equation is R=k•[Ti4+]•[H4R]•[H3+ O]-1, refering to Eigen-Tamm mechanism, the reasonable mechanism is derivated. The possibile geometric structure of the binary complex was also discussed.     

双核Cu(I)配合物的热分解非等温动力学

Thermal decomposition process of four benzimidazolyl-containing dicopper(Ⅰ) complexes: [Cu2(OCTB)](ClO4)2•1.5H2O(1), [Cu2 (NMOCTB)](ClO4)2•H2O(2), [Cu2(NBUOCTB)](ClO4)2(3), [Cu2(NBOCTB)](ClO4)2•H2O(4) and their kinetics were studied under the non-isothermal conditions by TG-DTG techniques. The non-isothermal kinetic data were analyzed by means of Achar and Coats-Redfern method respectively. The kinetic equation for the second step of the decomposition of complex (1) can be expressed as: dα/dt=A•exp(-E/RT) •(1-α), the mechanism of this reaction corresponds to "Coring and Growth" with n=1; while for the first step of complex (3) decomposition, dα/dt=A•exp(-E/RT)• (1-α)2, which corresponds to the mechanism of "the second-order chemical reaction".     

Two-dimensional "nano-ring and nano-crystal" morphologies in Langmuir monolayer of phthalocyaninato nickel complexes

Three 1,8,15,22-tetrasubstituted phthalocyaninato nickel complexes Ni[Pc(alpha-OR)(4)] [H(2)Pc(alpha-OC(5)H(11))(4) = 1,8,15,22-tetrakis(3-pentyloxy)phthalocyanine; H(2)Pc(alpha-OC(7)H(15))(4) = 1,8,15,22-tetrakis(2,4-dimethyl-3-pentyloxy)phthalocyanine; H(2)Pc(alpha-OC(10)H(7))(4) = 1,8,15,22-tetrakis(2-naphthyloxy)phthalocyanine] (1-3) have been prepared by treating the corresponding metal-free phthalocyanines H(2)Pc(alpha-OR)(4) with Ni(acac)(2)2H(2)O in refluxing n-pentanol. Structures of the Langmuir monolayers of these compounds at different temperature have been investigated. Compound 1 formed nano-ring structures with the outer diameter of 70-150 nm and inner diameter of 50 nm at 25.0 degrees C while 2 and 3 formed round particles. This difference can be ascribed to the different substituents at alpha position. The morphologies of the aggregates of 1 in monolayers have been found to change with temperature. Decreasing in temperature induced the formation of regular quadrate crystals. UV-vis absorption spectra revealed strong intermolecular interactions in the nano-ring aggregates. Polarized UV-vis absorption spectra suggest a titled orientation with respect to the surface of substrate for phthalocyanine macrocycles in the nano-ring aggregates.     

Thin-film transistors based on Langmuir-Blodgett films of heteroleptic bis(phthalocyaninato) rare earth complexes

An ordered molecular assembly of heteroleptic bis(phthalocyaninato) rare earth complexes M(Pc)[Pc(OC8H17)8] [M = Tb, Lu; H2Pc = phthalocyanine; H2Pc(OC8H17)8 = 2,3,9,10,16,17,23,24-octakis(octyloxy)phthalocyanine] has been fabricated by the Langmuir-Blodgett (LB) technique and characterized by surface pressure-area isotherms, electronic absorption and polarized electronic absorption spectroscopy, low-angle X-ray diffraction, and atomic force microscopy. The molecular ordering in the LB multilayer film on SiO2 substrate was made into a p-channel field effect transistor (FET), which was generally operated in the enhanced mode. The energy levels of the highest occupied molecular orbital and the lowest unoccupied molecular orbital as well as the energy band diagram can be deduced from the electrochemical measurement results. The charge mobilities of Tb(Pc)[Pc(OC8H17)8] and Lu(Pc)[Pc(OC8H17)8] were calculated to be about 6.4 x 10(-4) and 1.7 x 10(-3) cm2 V(-1) s(-1), respectively.     

Prototropic equilibria in DNA containing one-electron oxidized GC: intra-duplex vs. duplex to solvent deprotonation

By use of ESR and UV-vis spectral studies, this work identifies the protonation states of one-electron oxidized G:C (viz. G˙+:C, G(N1–H)˙:C(+H+), G(N1–H)˙:C, and G(N2-H)˙:C) in a DNA oligomer d[TGCGCGCA]2. Benchmark ESR and UV-vis spectra from one electron oxidized 1-Me-dGuo are employed to analyze the spectral data obtained in one-electron oxidized d[TGCGCGCA]2 at various pHs. At pH ≥7, the initial site of deprotonation of one-electron oxidized d[TGCGCGCA]2 to the surrounding solvent is found to be at N1 forming G(N1–H)˙:C at 155 K. However, upon annealing to 175 K, the site of deprotonation to the solvent shifts to an equilibrium mixture of G(N1–H)˙:C and G(N2–H)˙:C. For the first time, the presence of G(N2–H)˙:C in a ds DNA-oligomer is shown to be easily distinguished from the other prototropic forms, owing to its readily observable nitrogen hyperfine coupling (Azz(N2) = 16 G). In addition, for the oligomer in H2O, an additional 8 G N2–H proton HFCC is found. This ESR identification is supported by a UV-vis absorption at 630 nm which is characteristic for G(N2–H)˙ in model compounds and oligomers. We find that the extent of photo-conversion to the C1′ sugar radical (C1′˙) in the one-electron oxidized d[TGCGCGCA]2 allows for a clear distinction among the various G:C protonation states which can not be easily distinguished by ESR or UV-vis spectroscopies with this order for the extent of photo-conversion: G˙+:C > G(N1–H)˙:C(+H+) ? G(N1–H)˙:C. We propose that it is the G˙+:C form that undergoes deprotonation at the sugar and this requires reprotonation of G within the lifetime of exited state     

Synthesis of ionisable [2 x 2] grid-type metallo-arrays and reversible protonic modulation of the optical properties of the [Co4(II)L4]8+ species

The new bis-hydrazone based ligands A and B form ionisable [2 x 2] grid-type transition metal complexes whose properties may be modulated by multiple protonation/deprotonation as shown by the reversible change in optical properties of the [Co2(II)L4]8+ complexes depending on their protonation state.     

Spectroscopic and structural investigations reveal the signaling mechanism of a luminescent molybdate sensor

A heteroditopic ligand H(2)-L consisting of a dihydroxybenzene (catechol)-unit linked via an amide bond to a pyridyl-unit and its methyl-protected precursor Me(2)-L were synthesized, characterized, and their photophysical properties investigated. The three accessible protonation states of the ligand, H(3)-L(+), H(2)-L, and H-L(-), showed distinct (1)H NMR, absorption and emission spectroscopic characteristics that allow pH-sensing. The spectroscopic signatures obtained act as a guide to understand the signaling mechanism of the luminescent pH and molybdate sensor [Re(bpy)(CO)(3)(H(2)-L)](+). It was found that upon deprotonation of the 2-hydroxy group of H(2)-L, a ligand-based absorption band emerges that overlaps with the Re(dπ)→bpy metal-to-ligand charge transfer (MLCT) band of the sensor, reducing the quantum yield for emission on excitation in the 370 nm region. In addition, deprotonation of the catechol-unit leads to quenching of the emission from the Re(dπ)→bpy (3)MLCT state, consistent with photoinduced electron transfer from the electron-rich, deprotonated catecholate to the Re-based luminophore. Finally, reaction of 2 equiv of [Re(bpy)(CO)(3)(H(2)-L)](+) with molybdate was shown to give the zwitterionic Mo(VI) complex [MoO(2){Re(CO)(3)(bpy)(L)}(2)], as confirmed by electrospray ionization (ESI) mass spectrometry and X-ray crystallography. The crystal structure determination revealed that two fully deprotonated sensor molecules are bound via their oxygen-donors to a cis-dioxo-MoO(2) center.     

Kinetics and mechanism of bromate-bromide reaction catalyzed by acetate

The initial rate of the bromate-bromide reaction, BrO3- + 5Br- + 6H+ --> 3Br2 + 3H2O, has been measured at constant ionic strength, I = 3.0 mol L(-1), and at several initial concentrations of acetate, bromate, bromide, and perchloric acid. The reaction was followed at the Br2/Br3- isosbestic point (lambda = 446 nm) by the stopped-flow technique. A very complex behavior was found such that the results could be fitted only by a six term rate law, nu = k1[BrO3-][Br-][H+]2 + k2[BrO3-][Br-]2[H+]2 + k3[BrO3-][H+]2[acetate]2 + k4[BrO3-][Br-]2[H+]2[acetate] + k5[BrO3-][Br-][H+]3[acetate]2 + k6[BrO3-][Br-][H+]2[acetate], where k1 = 4.12 L3 mol(-3) s(-1), k2 = 0.810 L4 mol(-4) s(-1), k3 = 2.80 x 10(3) L4 mol(-4) s(-1), k4 = 278 L5 mol(-5) s(-1), k5 = 5.45 x 10(7) L6 mol(-6) s(-1), and k6 = 850 L4 mol(-4) s(-1). A mechanism, based on elementary steps, is proposed to explain each term of the rate law. This mechanism considers that when acetate binds to bromate it facilitates its second protonation.