乙基橙指示催化动力学极谱法测定痕量铜

１　引　言在ＨＡｃ－ＮａＡｃ介质中，邻菲■啉（ｐｈｅｎ）存在下，痕量铜对抗坏血酸还原乙基橙反应具有强烈的催化作用，且在此条件下乙基橙于－０．３０Ｖ（νｓ　ＳＣＥ）处，有一灵敏的极谱波，以此作为监测反应过程中乙基橙的浓度变化，建立了测定铜的催化动力学极谱方法。２　实验部分２．１　仪器与试剂　ＪＰ３－１型示波极谱仪（山东电讯七厂），ＣＳ５０１型超级恒温器（重庆试验设备厂）。０．５０ｍｇ／ＬＣＵ（Ⅱ）标准溶液；７．０ｘ１０－４ｍｏｌ／Ｌ乙基橙溶液；０．５ｍｏｌ／Ｌ　ＨＡｃ－ＮａＡＣ缓冲溶液（ｐＨ＝４．…     

溴化十二烷基吡啶和羟胺协同增敏显色反应的研究

系统地研究了钼－羟胺（ＨＹ）－邻苯二酚紫（ＰＶ）－溴化十二烷基吡啶（ＤＰＢ）体系的四元胶束混配物协同增敏显色反应。在ｐＨ４￣５的弱酸性条件下，Ｍｏ－ＰＶ二元配合物生成速率很慢，须加热才能完成，最大吸收波长λｍａｘ＝５１０ｎｍ，表观摩尔吸光系数εｍａｘ＝６．１×１０＾４Ｌ·ｍｏｌ＾－１·ｃｍ＾－１；Ｍｏ（Ⅵ）－ＰＶ－ＤＰＢ配合物在室温下缓慢形成１：１：１的配合物，最大吸收波长为５９０ｎｍ，表观摩尔吸     

V2O5—SiO2表面复合物金属催化剂载体的制备与表征

采用ＶＯＣｌ２的盐酸溶液等体积浸渍ＳｉＯ２载体的表面反应方法制备了键联型Ｖ２Ｏ５－ＳｉＯ２（ＶＳＯ）表面工外光谱法（ＩＲ）研究了其表面结构状态以及对Ｃ２Ｈ６的化学吸附性能；并利用程序升温还原技术（ＴＰＲ）考察了该表面复合物载体对负载金属Ｐｄ、Ｃｕ氧化物还原过程的影响。结果表明，ＶＳＯ具有类同于载体ＳｉＯ２的孔结构和机械强度；ＶＳＯ对Ｃ２Ｈ６有一定的化学吸附能力，Ｃ２Ｈ６分子Ｃ－Ｈ键中的Ｈ吸附在ＶＳ     

不同方法制备的Cu－Co低碳醇合成催化剂的比较研究Ⅰ．吸附态CO的红外光谱

本文并行考察了用溶剂化金属原子分散（ＳＭＡＤ）、浸渍、共沉淀三种方法制备的Ｃｕ－Ｃｏ催化剂的一氧化碳加氢反应（５６３Ｋ，６ＭＰａ，Ｈ２／ＣＯ＝２）性能及吸附态ＣＯ的红外光谱．结果表明：（１）三种催化剂上反应产物均为Ｃ１－Ｃ５正构醇及正构烃，总醇的选择性依下列次序递增：ＳＭＡＤ＜浸渍＜共沉淀；（２）表面低配位钻中心上多重吸附态ＣＯ的红外吸收峰的面积分数，对不同催化剂的变化规律，与醇选择性的变化一致；（３）高温还原和焙烧均使醇选择性下降，同时使表面低配位Ｃｏ０中心减少．据此讨论了ＣＯ插入中心，活性结构及制备方法的影响．     

碘化物-结晶紫-聚乙烯醇体系分光光度法测定自来水中痕量二氧化氯

在稀磷酸介质中，二氧化氯（ＣｌＯ２）氧化Ｉ离子形成 Ｉ３配阴离子，Ｉ３进一步与结晶紫（ＣＶ）阳离子形成离子缔合物［ＣＶ］［Ｉ３」。在聚乙烯醇存在下，该离子缔合物最大吸收波长λｍａｘ位于５５２ ｎｍ处，摩尔吸光系数ε＝２５ × １０５Ｌ·ｍｏｌ－１·ｃｍ－１，对 ＣｌＯ２的检出限为 ０．６ μｇ／Ｌ，线性范围是 ０．６～２８０μｇ／Ｌ。加入适量 ＫＦ溶液可消除自来水中Ｆｅ（Ⅲ）的干扰。方法对μｇ／Ｌ级ＣｌＯ２ 的测定有较好的选择性，可成功地用于自来水样品分析。     

CoTPP电化学催化原溴代环己烷的机理

以电化学循环伏安、现场ＥＳＲ电化学以及现场薄层电化学方法研究了电生Ｃｏ（Ｉ）ＴＰＰ与溴代五己烷的反机制。在ＤＭＦ中，Ｃｏ（Ⅱ）／Ｃｏ（Ⅰ）的氧化还原有明显的催化溴代环己烷还原的特片，反现场有自由基生成，反应产物之一是Ｃｏ－Ｃ键化合物，可以在１．３０Ｖ（ＳＣＥ）－电子还原，当存在ＣＨ２－ＣＨＣＮ时，。生成另一种Ｃｏ－Ｃ键化合物，该化合物在－１．１０Ｖ（ＳＣＥ）处一电子还原，证明溴代环己烷与Ｃｏ（Ｉ）     

催化反应—导数示波极谱法测定痕量钨

在盐酸介质中，痕量钨对钛（Ⅲ）还原金莲花橙的缓慢反应有强烈催化作用，在ＮａＯＨ介质莲花橙Ｏ于－０．５０Ｖｖｓ．ＳＣＥ产生一灵敏的导数示波极谱波。据此，建立了一定检测限和测定范围分别为０．８ｎｇ／ｍＬ和１．６－８０ｍｇ／ｍＬＷ的催化反应－示波极谱新方法，用于钢和矿样中钨的测定，获得满意结果。     

吡啶存在下（TPP）Co的电化学氧化还原行为研究

本文考究了吡啶对Ｃｏ在１，２－二氧乙烷中的电化学氧化还原行的影响，观察到当存在一定量Ｐｙ时，ＣＯ（Ⅲ）／Ｃｏ（Ⅱ）还原过程出现两个还原峰，分别在０．２５和－０．４０Ｖ两处。     

醋酸纤维素／聚乙烯基吡咯烷酮共混体系的特殊相互作用表征（Ⅱ）

通过测定醋酸纤维素（ＣＤＡ）和聚乙烯基吡咯烷酮（ＰＶＰ）共混物溶液的绝对粘度和特性粘数，发现ＣＤＡ和ＰＶＰ分子链段间有缔合现象．用富里哀变换红外光谱（ＦＴＩＲ）研究了共混物的吸收光谱，发现共混物中ＣＤＡ的羟基吸收峰和ＰＶＰ的羰基吸收峰均向低频方向迁移，证明了ＣＤＡ的羟基和ＰＶＰ的羰基之间有氢键形成．研究结果表明ＣＤＡ和ＰＶＰ的相容性及其特殊相互作用来源于不同分子链段间的氢键相互作用．     

聚硫堇修饰微带金电极的性质及对NADH的催化氧化

报道了硫堇在微带金电极上的电化学聚合过程，用红外光谱对聚硫堇进行了表征；研究了聚硫堇的电化学性质，发现聚硫堇在＋０．５～－０．７Ｖ（ｖｓ．ＳＣＥ）电位范围内有两对氧化还原峰，峰电位分别为：Ｅ＝－０．０３Ｖ、Ｅ＝０．０５Ｖ，Ｅ＝－０．２４Ｖ、Ｅ＝－０．１７Ｖ（ｖｓ．ＳＣＥ）。它们的式量电位Ｅ~（ｏ＇）随ｐＨ而变化，在弱酸性溶液中，Ｅ~（ｏ＇）／ｐＨ为－２９ｍＶ／ｐＨ（２５℃）；而在弱碱性溶液中则为－５６ｍＶ／ｐＨ。聚硫堇修饰微带金电极对ＮＡＤＨ的氧化具有催化作用，文中对电催化过程进行了探讨。     

Active uptake of drugs into photosensitive liposomes and rapid release on UV photolysis

Liposomes containing high concentrations of the anticancer drug doxorubicin, prepared by active-loading techniques, have been intensively investigated as potential agents for chemotherapy. The present study investigates the possibility of active uptake and photoinduced release of such solutes from liposomes incorporating a photoisomerizable lipid. The active loading of acridine orange and doxorubicin was investigated using liposomes containing entrapped ammonium sulfate. The liposomes were prepared with dipalmitoyl-L-alpha-phosphatidyl choline (DPPC) and a photochromic lipid, (1,2-(4'-n-butylphenyl)azo-4'-(gamma-phenylbutyroyl))-glycero-3- phosphocholine (Bis-Azo PC), which isomerizes on exposure to near-UV light with resulting changes in membrane permeability to solutes. The rate of loading of the vesicles below the phase transition temperature of DPPC was investigated as a function of Bis-Azo PC and cholesterol concentrations in the liposome. The rate of doxorubicin uptake was found to be greatly decreased in the presence of cholesterol, while below 30 degrees C the rate of acridine orange uptake was increased in the presence of cholesterol. On exposure to a single UV laser pulse, actively loaded acridine orange was rapidly released from liposomes containing Bis-Azo PC at a rate similar to that found for the indicator dye calcein. However while cholesterol had previously been shown to greatly enhance the rate of photo-induced calcein leakage, it had no significant effect on the rate of acridine orange release. After active loading into DPPC vesicles containing Bis-Azo PC, doxorubicin was also released after exposure to a single laser pulse, but at a rate slower than for acridine orange and calcein. The difference in behavior between these systems is ascribed to the interactions of acridine orange and doxorubicin with the liposome bilayer. Photoinduced release of pharmacologically active materials from sensitized liposomes might provide a useful adjunct or alternative to conventional photodynamic therapy.     

铋铁复合氧化物光催化材料的制备及其性能研究

采用共沉淀法制备了一系列铋铁复合氧化物光催化剂,并以可见光降解甲基橙为模型反应,研究其在可见光照射下降解甲基橙的光催化性能。详细考察了p H值、铋铁摩尔比、煅烧温度等对其光催化性能的影响。在优化条件下,铋铁摩尔比为2∶1、p H=3~4时制备出的样品具有较好的光催化性能,甲基橙的降解率可达到91.95%。     

Elemental composition changes in citrus affected by the CVC disease

The citrus variegated chlorosis (CVC) disease results in serious economical losses for the Brazilian citriculture. The influence of CVC disease on the elemental composition of citrus plants was investigated. Leaves of sweet orange varieties Hamlin, Pera Rio and Valencia were collected from healthy and CVC-affected trees for chemical characterization by instrumental neutron activation analysis (INAA). Significant differences between healthy and CVC-affected leaves were identified for Ca, Ce, Co, Eu, Fe, K, La, Na, Nd, Rb, Sc and Sm. Rare earth elements presented consistently higher mass fractions in the healthy leaves.     

Kinetics of Na+-dependent D-glucose transport

The kinetic parameters of the Na+-dependent glucose transport system have been determined in isolated membrane vesicles for D-glucose, Na+, and phlorhizin. The D-glucose flux measurements were carried out by the equilibrium exchange procedure at constant external and internal Na+ concentrations and zero potential. Equations were developed to extract information about Km and Vmax from uptake measurements into a vesicle population that is heterogeneous with respect to size (surface to volume ratio). The Km for D-glucose was 14 mM and independent of the Na+-concentration, while the Vmax was strongly Na+-dependent and increased 15-fold between 1 and 100 mM Na+. The Km of Na+ for activation of the Vmax was 18 mM. The calculated KI values for phlorhizin were 2.7 and 1.9 micrometer when determined under active and equilibrating D-glucose flux conditions, respectively.     

Factors affecting the distribution of trace elements in aquatic plants: Success and limitations of the coordination model

The factors that affect the uptake and distribution of trace elements are reviewed and include alteration of solubility by chelating agents and carbonate ion. The waterhyacinth, Eichhornia crassipes (Mart.) Solms, which infests waterways in many areas of the world, was used as a model system. Observed rates of uptake of ⁵⁴Mn(II) and ⁵⁹Fe(III) by waterhyacinth, are compared with the values expected for uptake based upon control by chelation, i.e. with dihydrogen ethylenediaminetetraacetate and control by metal(II) carbonate solubility. Manganese-54 and iron-59 appeared in the roots on the first day. The relative rate of appearance (⁵⁴Mn/⁵⁹Fe) of the roots was $\text{13}\text{1}$; experimentally significant amounts of iron did not appear in the leaves much before 10 days. The ratio of the uptake rate of manganese relative to iron is within the predicted range, assuming control by metal(II) carbonate solubility, but is several orders of magnitude less than expected for control by chelation. A coordination model was used, and the agreement is improved by assuming the iron-EDTA was protonated, though the limitations of the assumption are recognized. Fair agreement is noted if it is assumed that reduction of iron occurs in the vicinity of the roots, and if the rate ratios are compared with the stability constants for divalent-metal species.     

Remarkable influence of surface composition and structure of oxidized iron layer on orange I decomposition mechanisms

Although the decomposition of water pollutants in the presence of metallic iron is known, the reaction pathways and mechanisms of the decomposition of azo-dyes have been meagerly investigated. The interface phenomena taking place during orange I decomposition have been investigated with the use of infrared external reflection spectroscopy, X-ray photoelectron spectroscopy, and scanning electron microscopy. The studies presented in this paper establish that there are close relationships between the composition and structure of the iron surface oxidized layers and the kinetics and reaction pathway of orange decomposition. The influence of the molecular structure of azo-dye on the produced intermediates was also studied. There are remarkable differences in orange I decomposition between pH 3 and pH 5 at 30 degrees C. Decomposition at pH 3 is very fast with pseudo-first-order kinetics, whereas at pH 5 the reaction is slower with pseudo-zero-order kinetics. At pH 3, only one amine, namely 1-amino-4-naphthol, was identified as an intermediate that undergoes future decomposition. Sulfanilic acid, the second harmful reduction product, was not found in our studies. At pH 3, the iron surface is covered only by a very thin layer of polymeric Fe(OH)(2) mixed with FeO that ensures orange reduction by a combination of an electron transfer reaction and a catalytic hydrogenation reaction. At pH 5, the iron surface is covered up to a few micrometers thick, with a very spongy and porous layer of lepidocrocite enriched in Fe(2+) ions, which slows the electron transfer process. The fastest decomposition reaction was found at a potential near -300 mV (standard hydrogen electrode). An addition of Fe(2+) ions to solution, iron preoxidation in water, or an increase of temperature all result in an increasing decomposition rate. There is no single surface product that would inhibit the decomposition of orange. This information is crucial to perform efficient, clean and low cost waste water treatment. The findings presented here make the treatment of wastewater in the presence of metallic iron a very promising solution.     

Investigation of effects of cadmium,lead, nickel and vanadium contamination on the uptake and transport processes in cucumber plants by TXRF spectrometry

Uptake and transport processes of some essential nutrient elements (K, Ca, Fe, Mn and Zn) in cucumber plants grown in contamination-free or in contaminated (10⁻⁵ M Cd, Ni, Pb or V) nutrient solutions containing iron in the chemical form of Fe(III)-citrate, Fe(III)-EDTA or Fe-chloride were studied by total reflection X-ray fluorescence spectrometry (TXRF). The root samples were dissolved using a microwave assisted acidic digestion procedure, while the xylem sap samples were directly analysed after addition of internal standard. It was established that the accumulation in the roots and the transport rate of the four heavy metals investigated increase in order of V<Ni≪Cd<Pb and V≪Pb<Cd<Ni, respectively. Due to the relatively low accumulation and transport of V in the plant it has the smallest influence on the uptake and transport of the essential elements. Cd hampers the water uptake and thereby the amount of all transported essential elements, and in addition results in higher accumulation of Ca, Fe and Zn in the roots. Pb contamination leads to a drastic reduction of Ca accumulated in the roots and mostly a slight increment in the transport of the essential nutrient elements investigated. Ni contamination hinders the transport of K and Zn, and leads to a higher accumulation of Mn in the roots. The chemical form of iron and hereby the presence of complex forming agents play an important role first of all for the uptake and transport processes of Fe and K.     

Determination of Total Tannin of White and Red Rind Pomegranate (Punica Granatum L.) by Colorimetry Method Using Reagent 1, 10 Phenantroline

Determination of the total tannin of white and red rind pomegranate (Punica granatum L.) has been carried out by colorimetry method using reagent 1,10 phenantroline. This method is based on reduction of iron (III) into iron (II) by tannin at temperature 80⁰C for 20 min. Then the formed of iron (II) was reacted with 1,10 phenantroline to form orange red colour complex that could be measured by spectrophotometer visible at maximum absorption wavelength of 508 nm. The limit of detection (LOD) and the limit of quantitation (LOQ) obtained were 0.34 μg/mL and 1.14 μg/mL, respectively. This result was found to be linier with R value of 0.9984; accuracy as percent recovery was 84.69 ± 0.85% and coefficient of variant (KV) was 1.003% for white rind pomegranate while red rind pomegranate percent recovery was 84.38 ± 0,45% and coefficient of variant (KV) was 0.53%. The total tannin of white rind pomegranate was 18.28 ± 0.072%b/b and red rind pomegranate was 17.33 ± 0.081%b/b     

Photoinduced degradation of orange II on different iron (hydr)oxides in aqueous suspension: rate enhancement on addition of hydrogen peroxide, silver nitrate, and sodium fluoride

Photoinduced organic oxidation with iron (hydr)oxides in aqueous suspension has been argued with respect to two principal mechanisms: (a) photoinduced ligand-to-metal charge transfer within a surface complex and (b) semiconductor photocatalysis. In this work, the photodegradation of azo dye orange II with UV light (lambda > or = 320 nm) in the aerated aqueous suspensions of haematite, maghemite, magnetite, goethite, lepidocrocite, and feroxyhite at an initial pH of 6.5 has been examined. The results showed that (1) all of the catalysts were effective at initiating dye photodegradation but the iron oxides appeared to be more active than the iron hydroxides; (2) the photodissolution of different iron phases and the dye photolysis in the dissolved iron solutions were very slow; (3) the initial rate of dye loss was proportional to the initial amount of adsorption, implying dye photodegradation on the catalyst surface; and (4) upon addition of H2O2, AgNO3, and NaF to the suspension, the rate of dye photodegradation was significantly enhanced with all the catalysts. In the presence of H2O2, less than 50% of the total rate enhancement was ascribed to the photo-Fenton reaction in solution and the dark Fenton reactions in solution and on the catalyst. In the presence of AgNO3, about 1 mole of silver particles was produced by consuming 3 moles of the dye substrate. In the presence of NaF, hydroxyl radicals were detected by an ethanol scavenger, whereas such radicals were not found in the absence of NaF. Moreover, under visible-light irradiation (lambda > or = 450 nm), the dye degradation was much slower than that under UV irradiation, but the reaction was also accelerated by the addition of NaF and AgNO3. The results suggest that mechanism b, not mechanism a, is operative for dye photodegradation occurring on the iron (hydr)oxides. A detailed discussion of all possible pathways is given in the text.     

Photocatalytic degradation of methyl orange on arrayed porous iron-doped anatase TiO2

Arrayed porous iron-doped TiO₂ was prepared by sol–gel with polystyrene spheres as template and used as photocatalyst for the degradation of methyl orange. The structure and performances of the prepared photocatalyst were characterized with X-ray diffractometer, inductively coupled plasma-atomic emission spectrometer, scanning electron microscope, UV-visible spectrometer, and methyl orange degradation tests. It is found that the iron dopant does not change the crystal phase of TiO₂ but affects its lattice constant, optical absorption, electronic conductivity, charge-transfer resistance, and activity toward the degradation of methyl orange. The sample doped with 0.01 wt.% Fe (based on Ti) and with smaller pore size exhibits the better photocatalytic activity. The degradation rate of methyl orange on the sample with a pore size of 190 nm is 2.3 times that on the undoped sample with the same pore size.