Selective oxidation of cyclohexane with hydrogen peroxide in the presence of copper pyrophosphate

Liquid phase oxidation of cyclohexane was carried out under mild reaction condition over copper pyrophosphate catalyst in CH3CN using hydrogen peroxide as an oxidant at the temperature between 25 and 80 degrees C. The copper pyrophosphate catalyst was characterized by means of XRD, FT-IR and water contact angle measurement. It was found that appropriate surface hydrophobicity is the key factor for the excellent performance of the catalyst. In addition, a significant improvement for the cyclohexane conversion in the presence of organic acid was observed.

Chitosan(Chitin)/Cellulose Composite Biosorbents Prepared Using Ionic Liquid for Heavy Metal Ions Adsorption

Chitosan(chitin)/cellulose composites as biodegradable biosorbents were prepared under an environment-friendly preparation processes using ionic liquids. Infrared and X-ray photoelectron spectra indicated the stronger intermolecular hydrogen bond between chitosan and cellulose, and the hydroxyl and amine groups were believed to be the metal ion binding sites. Among the prepared biosorbents, freeze-dried composite had higher adsorption capacity and better stability. The capacity of adsorption was found to be Cu(II) (0.417 mmol/g) > Zn(II) (0.303 mmol/g) > Cr(VI) (0.251 mmol/g) > Ni(II) (0.225 mmol/g) > Ph(II) (0.127 mmol/g) at the same initial concentration 5 mmol L-1. In contrast to some other chitosan-type biosorbents, preparation and component of the biosorbent were obviously more environment friendly. Moreover, adsorption capacity of chitosan in the blending biosorbent could be fully shown.

Single-crystal X-ray structure and properties of K-10[Ni-4(H2O)(2)(AsW9O34)(2)]center dot 4H(2)O

The rational synthesis and the structural and magnetic characterization of a nickel cluster are presented. The compound comprises a rhomblike Ni4O16 group encapsulated between two-heptadentate tungstoarsenate ligands [AsW9O34](9-). The crystal structure of K-10[Ni-4(H2O)(2)(AsW9O34)(2)](.)4H(2)O was solved in monoclinic, P2(1)/n symmetry, with a = 12.258(3) Angstrom, b = 21.232(4) Angstrom, c = 15.837(3) Angstrom, beta = 92.05(3)degrees, V = 4119.1(14) Angstrom(3), Z = 2, and R = 0.0862. The crystal structure of the Ni(II) derivative was compared with that of the Cu(II), Zn(II), Co(II) and Mn(II) derivatives. The Ni4O14(H2O)(2) unit in the compound shows no Jahn-Teller distortion. On the other hand, the Ni(II) derivative shows ferromagnetic exchange interactions within the Ni4O16 group (J = 7.8 cm(-1), J' = 13.7 cm(-1)) and an S = 4 ground state, the highest spin state reported in a heteropoly complex. Its redox electrochemistry has been studied in acid buffer solutions using cyclic voltammetry. It exhibited two steps of one-electron redox waves attributed to redox processes of the tungsten-oxo framework. The new catalyst showed an electrocatalytic effect on the reduction of NO2-.

The oxidative demethylation of 24-membered hexa-aza macrocyclic bicopper(I) complex - The mimicking for monooxygenase

By [2 + 2] Schiff base condensation of 5 - bromo - 2 - methoxylbenzene - 1,3 - dicarboxaldehyde with diethylenetriamine, a new hexaaza 24 - membered macrocyclic ligand was obtained,which formed a macrocyclic binuclear copper(I) complex in the presence of [Cu . (CH3CN)(4)]ClO4. When the copper(I) complex was oxidized in air or oxygen, a new macrocyclic binuclear copper( II) complex was obtained. The copper( II.) complex was characterized by several methods and its oxidized products was characterized by H-1 NMR. The results show that during oxidation, a methoxyl group in the ligand ring broke; and the phenoxy - and water - bridged Cu(II) complex formed. In oxidation of monooxygenase such as ligninase, oxidative demethylation also happened. Therefore this work mimicked this process for the first time by using macrocyclic complex. The quantity of absorbed oxygen and the absorption rate of oxygen were determined.

PREPARATION OF PERIODATOCUPRATE(III) AND TELLURATOCUPRATE(III) BY ELECTROCHEMICAL AND OZONE OXIDATION

In the cyclic voltammograms of complexes with periodate and tellurate, the anodic and cathodic peaks were observed evidently for Cu(III)/Cu(II) couples in caustic potash aqueous solutions. Copper(III) complexes were obtained by utilizing ozone as oxidant

CYCLIC VOLTAMMETRIC AND SPECTROELECTROCHEMICAL STUDIES OF COPPER IN ALKALINE-SOLUTION

The behaviour of the electroplated copper film electrode on tin oxide/glass or glassy carbon surface was studied in potassium hydroxide medium by cyclic voltammetry and in situ transmission spectroelectrochemistry. The results indicate that the electroplated copper film electrode is similar to a copper electrode and cyclic voltammetry with this electrode affords more resolution. The anodic peaks were found to correspond successively to the adsorption of oxygen, the formation of a surface layer of Cu2O, the formation of a surface layer of Cu(OH)2 or CuO and formation of a thick multilayer film of CuO. This is the first time it has been proposed that a surface layer of Cu(OH)2 or CuO is formed from the oxidation of the surface layer of Cu2O. Similarly, a clear interpretation is presented that the cathodic peaks correspond successively to the reduction of CuO to Cu2O, the reductions of Cu2O to Cu and the soluble Cu(II) species to Cu. On the other hand, a shoulder peak related to the chemical transformation of Cu(OH)2 to CuO was first observed.

On-line concentration of peptides and proteins with the hyphenation of polymer monolithic immobilized metal affinity chromatography and capillary electrophoresis

An iminodiacetic acid (IDA)-type adsorbent is prepared at the one end of a capillary by covalently bonding IDA to the monolithic rods of macroporous poly(glycidyl methacrylate-co-ethylene dimethacrylate). Cu(II) is later introduced to the support via the interaction with IDA. By this means, polymer monolithic immobilized metal affinity chromatography (IMAC) materials are prepared. With such a column, IMAC for on-line concentration and capillary electrophoresis (CE) for the subsequent analysis are hyphenated for the analysis of peptides and proteins. The reproducibility of such a column has been proved good with relative standard deviations (RSDs) of dead time of less than 5% for injection-to-injection and 12% for column-to-column (n = 3). Through application on the analysis of standard peptides and real protein samples, such a technique has shown promising in proteome study.

I：新型稀土永磁材料Nd-Fe-B氧化过程及抗氧化新体系研究II：CuO、Y_2Cu_2O_5、BaCuO_2和RBa_2Cu_3O_(7-δ)超导体磁化率及Cu价态研究

本论文由两大部分组成。第一部分是新型稀土永磁材料Nd-Fe-B氧化过程及抗氧化新体系的研究。Nd-Fe-B永磁体是1983年问世的新型稀土永磁材料。和原有的铁氧体及Sm-Co体系相比，具有磁能积高（50MGOe）。价廉源广，制备简单等三大优点；也有居里温度低（310℃），温度系数大（－0.126%/K），易氧化等三大缺点，我们对Nd-Fe-B合金的氧化过程进行研究，发现该材料热稳定性差，容易发生氧化反应，氧化使材料的结构受到破坏，并给材料的磁性造成不可恢复的损失，整个氧化过程是分阶段的。在室温和干燥的空气中材料基本是稳定的。150℃以下材料磁性受到破坏的主要原因是体系中Nd的氧化。230℃以上材料主体成分Fe也开始氧化，温度升高使反应进程大大加快。到800℃左右反应基本结束，最终产物主要为Fe_2O_3, Nd_2O_3·FeNdO_3和NdBO_3。增加体系中B的相对含量和添加某些新的元素均能提高材料的抗氧化能力，新研制的Nd-Fe-B-Si四元体系和原来的Nd-Fe-B体系相比具有下列显著优点：新体系的抗氧化能力大大提高，经过150℃的长期恒温试验，材料的结构，磁性均未受到破坏，某些体系甚至能在更高的温度下使用，另外，新体系的居里温度Tc也大为提高。比原有Nd-Fe-B磁体高40℃左右。因此该体系是一种大有发展前途的新材料。此外，我们用动态热重法研究了Nd-Fe-B合金的氧化动力学过程，但由于我们新合成的体系构相较为复杂，未能达到预期效果。第二部分是CuO，Y_2Cu_2O_5，BaCuO_2和RBa_2Cu_3O_(7-δ)超导体（R稀土元素）磁化率及铜价态研究，铜的氧化物具有复杂的化学计量关系和磁学性质。在对CuO的磁化率研究中，我们发现在低温区（77K－110K）和一定磁场下，CuO由顺磁突变为抗磁。这种转变与磁场强度有很大关系。这一结果与前人的工作有较大的出入。而与超导体的形为极为相似。所不同的是，转变温度与样品的重量也有关系。实验结果重复。由于铜氧性质在R-Ba-Cu-O超导体中起决定作用，因此有必要对CuO的低温磁性作进一步研究。此外，我们对文献尚未报道的Y_2Cu_2O_5的磁化率在77－300K温度区间进行了测量，发现它是顺磁性物质，室温有效磁矩μ_(eff) = 2.13μB。高于Cu~(2+)的理论有效磁矩（1.73μB）。经过碘量法价态分析，发现Y_2Cu_2O_5中有部分Cu~(3+)，这与磁化率的测定相符合。Tc在90K左右的Y-Ba-Cu-O体系是近期才发现的具有超高温超导材料。该体系有着独特的结构和性质。在对R-Ba-Cu-O及R-Ba-Cu-O-Ag超导体的研究中，我们发现此类超导体属II类超导体，在临界温附近该超导体由顺磁转变为抗磁，此种变化与磁场强度有很大关系，当场强大于一定值后，则观察不到这种转变。在对RBa_2Cu_3O_(7-δ) (R = Y, Sm, Eu, Gd, Dy, Ho, Er, Tm)超导体和具有相同配比但由于合成工艺条件不同而不超导的R'Ba_2Cu_3O_(7-δ) (R' = Y, Sm, Eu, Gd)非超导体的铜价态分析中，我们发现此两类化合物中均含有一定量的Cu~(3+)。且超导体中Cu~(3+)的含量高于非超导体中Cu~(3+)的含量（同样比例）。我们还发现Cu~(3+)对水极为敏感，将RBa_2Cu_3O_(7-δ) (除R = Gd, Dy, Er)超导体在未干燥容器中测出的Cu~(3+)量远远低于干燥容器中所测得的值。我们认为这可能是引起超导体不稳定的重要原因。由于尚缺乏用其它手段检测到超导体中Cu~(3+)存在的例证。故对此问题还有待于今后继续作进一步的研究。

氟化物晶体中铕（II）及其共掺体系的光谱化学

利用坩埚下降法生长了KMgF_3:Eu~(2+)和KMgF_3:Eu~(2+)-X(X=Gd~(3+)、Ce~(3+)、Cr~(3+)、Cu~(+))等12种单晶体。测试了所有单晶体的UV-Vis吸收光谱、近红外吸收光谱、低分辨荧光光谱以及在300 K和77 K的高分辨发射光谱。测试了所有晶体研成粉末后的漫反射光谱。光谱研究表明，晶体中含有氧中心和色心，发现了氧中心和色心与掺杂离子之间的能量传递。不同掺杂离子之间的光谱相互影响，并存在能量传递现象。首次研究了Eu~(2+)振动光谱与其它掺杂离子格位取代的关系，发现从振动光谱的研究可以获得许多有用的信息。利用时间分辨技术测量了4种晶体中Eu~(2+) ~6P_(7/2)激发态的四能级衰减模型和双指数拟合方程，并从光谱上证实了该模型的正确性。对双指数拟合方程中每一项参数的物理意义给出了明确的解释。根据这些拟合常数，建立了一种研究能量传递现象和机理的新方法。首次发现了Eu~(2+)和Ce~(3+)通过d-d相互作用发生的能量传递现象。根据我们建立的模型和可获得的文献数据，从理论和实验上证明了KMgF_3:Eu~(2+)晶体存在净光学增益。

钠原子激光增强电离光谱研究—以石墨杯为原子化器 原子吸收光谱法对发样中Zn、Cu、Mn、Ap的测定

、I钠原子激光增强电离光谱(LEIS)方法的研究-以石墨杯为原子化器在LEIS方法中，最常见的原子化器是火焰。但由于火焰背景噪声严重且难以克服，在火焰原子化过程中，雾化和热离解不充分，仅有10~(-2)%的分析溶液参与吸收以及火焰气体使测定元素受到高度稀释等不利因素的影响，火焰原子化限制了LEIS方法灵敏度的进一步提高。考虑到石墨炉原子化器较火焰具有取样量少，绝对灵敏度高；样品（包括固态、液态）可直接引入石墨炉内；不会发生如同火焰中所存在的干扰效应；蒸发效率和原子化效率较高，几乎全部样品都能参与吸收等优点，本工作在已建立火焰LEIS方法的实验基础上，将原子化器改换为石墨杯进行了钠原子LEIS方法的研究。到目前为止，国内外仅有的几篇有关石黑炉LEIS的研究报告中，都报导了该方法对钠原子的检出限估计可达到10~(-14)-10~(-15)克，由于此项研究尚处于探索性研究阶段，故有关方法性的系统研究几乎还未见报导。本工作在未使用任何放大器的情况下（实验条件限制）对影响钠原子LEIS信号强度的诸因互进行了实验观察。主要包括：钠原子化条件；激光束位置、阳极电压、激光输出能量、电极位置以及激光脉冲重复率对LEIS信号强度的影响等。并绘制了校准曲线，统计方法的相对标准偏差分别为11%（高浓度）18.2%（低浓度），在现有仪器条件下，还不能测出检出限，测定下限为3*10~(-9)克。对固体粉末直接进行了尝试，检测下限为5*10~(-8)克，进样是为5毫克。在进一步的研究工作中，如有条件使用低噪声的放大器及Bxear积分器，选择门检时间窗，或采用分步激发等手段，估计本方法定会达到预想的高灵敏度，检敏度至少提高了个数量级。对石墨炉原子化LEIS法来说，似比较详细的研究报告，截至实验停止时还未见报导。II原子吸收光谱法对发样中Zn、Cu、Mn、Al的测定发中微量元素ZN、Cu、Mn均属人体必需元素，与人体的生长发育和多种生理功能，临床医学等方面有着极为密切的关系，而Al则被认为是异致某种疾病的元素之一。本工作报告了用火焰法测定Zn、Cu；石墨炉法测定Al、Mn的结果，其中，对Al的测定，为摆脱基体干扰，加入改进剂Mg(NO_3)_2，并采用平台石墨炉进行试验，得到了线性较好的工作曲线，但在实际测定时，由于实验条件的限制，只能采用一般石墨管加基体改进剂对少娄样品中Al含量进行测定。Zn、Cu、Al三种元素由标准曲线法测定；而Mn由于Fe的干扰无法消除而采用标准加入法测定，并因此限制了测定样品数。Cu、ZN、Mn三种元素的回收率分别为102.8%, 99.7%, 102.5%，变异系数为9.6%, 11.3%, 9.7%，对本地居民发中（30个发样）Zn、Cu含量进行测定，Zn、Cu的含量范围为148-318ppm，7.2-15ppm，并计算了Zn/Cu比。本方法对发样中四种元素的测定结果与ICP法进行对照。两种方法测定结果吻合得较好。