Studies on the phase diagram of the surfactant/1-pentanol water ternary system II: The liquid crystalline phase

The phase behavior of liquid crystalline in the ternary system of dodecyl dimethyl ammonium hydroxyl propyl sulfonate(DDAHPS)/1-pentanol(C5H11OH)/water deuteron (D2O) has been investigated by polarizing optical microscopy, H-2 NMR spectroscopy methods. The results indicate that two kinds of liquid crystals (the lamellar, and the hexagonal) exist in the liquid crystalline phase region. In this paper, we also use the polarized Raman spectroscopy method to measure the values of the order/disorder parameters and the values of the environment polarity parameters for the samples selected from the liquid crystalline phase region, and compare these two parameters of the samples with those of solid state DDAHPS and liquid state pentan-1-ol.

Optimal feedback control of two-photon fluorescence based on genetic algorithm

An optimal feedback control of two-photon fluorescence in the ethanol solution of 4-dicyanomethylene-2-methyl-6-p-dimethyl-amiiiostryryl-4H-pyran (DCM) using pulse-shaping technique based on genetic algorithm is demonstrated experimentally. The two-photon fluorescence of the DCM ethanol solution is enhanced in intensity of about 23%. The second harmonic generation frequency-resolved optical gating (SHG-FROG) trace indicates that the effective population transfer arises from the positively chirped pulse. The experimental results appear the potential applications of coherent control to the complicated molecular system.

果实对酵母拮抗菌和外源水杨酸诱导的抗病性应答机理

用生物和非生物因子来进行采后病害的防治，是一个非常有效的方法。诱导抗性作为控制果蔬采后病害的生物技术，已成为该领域的一个研究热点。然而诱导抗性的机制非常复杂，涉及到寄主、病原菌、激发子之间的相互作用关系。本研究主要利用酵母拮抗菌Pichia membranefaciens和SA处理果实，观察其抗性诱导表达和对采后青霉病菌（Penicillium expansum）的抑制作用，并从蛋白质组学水平上对诱导抗性的机理进行了分析。研究结果表明： 1、酵母拮抗菌P. membranefaciens (5 × 107 cells·ml-1)和SA(0.5 mM)处理采后甜樱桃果实，能够明显地降低病害的发病率和病斑直径。酵母菌和SA处理影响到了果实抗氧化酶的活性，同时还改变了POD同工酶谱和甜樱桃果实的总蛋白含量，并诱导了新的蛋白质条带产生。用光学显微镜和扫描电子显微镜技术观察发现，在in vitro条件下P. membranefaciens能够紧密地结合与病原菌的菌丝，而在in vivo条件下这种结合较为松散。 2、借鉴其它模式植物的方法，我们建立了一整套适用于多汁类植物材料的蛋白质组学研究方法。对于芒果，桃，甜樱桃、苹果以及冬枣等果实，都取得了重复性非常好的2-D图谱。我们应用该技术进一步研究了P. membranefaciens (1 × 108 cells·ml-1)以及SA (0.5 mM)处理对桃果实蛋白质组的诱导影响。结果显示，两种激发子处理都能够诱导桃果实产生抗性，从而减轻青霉病引起的腐烂。在诱导处理1 d以后，酵母拮抗菌和SA分别诱导22和16个蛋白的差异表达。质谱鉴定的蛋白属于6大类：代谢，防御反应，转录，能量途径以及细胞结构。有6个蛋白受到两种激发子的共同调控。其中，4种蛋白(包括glutathione peroxidase, polyphenol oxidase precursor, catalase和methionine sulfoxide reductase) 属于抗氧化蛋白，涉及到活性氧代谢。另2个蛋白（Major allergen Pru av 1和peroxidase）是病程相关蛋白，直接参与植物的防御反应。同时一些磷酸化酶和转录因子也受到两种激发子的调节从而参与果实的抗病反应。酶学测定和Northern杂交的结果表明，拮抗菌与SA处理均能影响过氧化氢酶活性及其基因的表达。 3、采前用较高浓度SA (2 mM) 短时间（10s）处理不同成熟期的甜樱桃果实，能够明显降低果实青霉病的病斑直径，并能减轻较低成熟度果实的发病率。在没有接菌的情况下，SA诱导了33个差异表达的蛋白，其中用质谱鉴定出了26个。而在接种病原菌的情况下，SA诱导了19个差异表达的蛋白，并鉴定出了其中的12个。这些蛋白分别涉及到代谢、防御反应、转录、能量途径、信号转导等过程。在没有接种病原菌的情况下，SA处理诱导了Putative DnaJ heat shock protein, PR1-like protein, Peroxidase, Major allergen Pru av 1 (Pru a 1)和Catalase等与抗病有关的蛋白。而在接种病原菌的情况下，诱导了PR1-like protein, Peroxidase和Catalase蛋白的差异表达。通过酶活性测定以及对细胞学定位的研究，我们发现在没有接种病原菌的情况下，POD的活性受到SA的诱导。但是在接种病原菌以后，诱导效果不明显。

Chemical Constituents from Fruit Hulls of Garcinia mangostana ( Cuttiferae

从山竺(Garcinia mangostana)果壳中分离得到6个化合物,通过MS,1D 1NMR以及与文献对照鉴定它们为4个(口山)酮类化合物:α-mangostin(1),β-mangostin(2),γ-mangostin(3),5,9-dihydroxy-8-methoxy-2,2-dimethyl-7-(3-methylbut-2-enyl)-2H,6H-pyrano-[3,2-b]-xanthen-6-one(4),以及表儿茶素(epicatechin,5)和一个双苄类化合物egonol(6).其中化合物5和化合物6为首次从该植物中分离得到.对化合物1～5进行抗HIV-1 RT活性筛选结果表明,化合物2和化合物5在浓度200 μg/ml的条件下,其对HIV-1 RT抑制率分别为41.97%和47.72%;同一实验结果显示化合物1,3和4没有抑制HIV-1 RT作用.

An improved microtiter assay for evaluating anti-HIV-I neutralizing antibodies from sera or plasma

Background: The anti-HIV-1 neutralizing antibody assay is widely used in AIDS vaccine research and other experimental and clinical studies. The vital dye staining method applied in the detection of anti-HIV-1 neutralizing antibody has been used in many laboratories. However, the unknown factor(s) in sera or plasma affected cell growth and caused protection when the tested sera or plasma was continuously maintained in cell culture. In addition, the poor solubility of neutral red in medium (such as RPMI-1640) also limited the use of this assay. Methods: In this study, human T cell line C8166 was used as host cells, and 3-(4,5-Dimethyl-2-thiazolyl)- 2,5-diphenyl-2H-tetrazolium bromide (MTT) instead of neutral red was used as vital dye. In order to avoid the effect of the unknown factor( s), the tested sera or plasma was removed by a washout procedure after initial 3 - 6 h culture in the assay. Result: This new assay eliminated the effect of the tested sera or plasma on cell growth, improved the reliability of detection of anti-HIV-1 neutralizing antibody, and showed excellent agreement with the p24 antigen method. Conclusion: The results suggest that the improved assay is relatively simple, highly duplicable, cost-effective, and well reliable for evaluating anti-HIV-1 neutralizing antibodies from sera or plasma.

替代燃料二甲醚的燃烧特性及其污染物甲醛的生成消耗机理研究

化石燃料的不可再生性决定了其不能长久为全球经济和科技的发展提供能源动力，从可持续发展和能源战略的角度考虑，能够替代石油及其衍生品的清洁替代燃料研究已经成为提高能源供应安全、改善环境污染问题、应对气候变化的重要措施，对替代燃料的研究和应用已经成为各方关注和开发的热点。 二甲醚(DME、CH3OCH3)是一种最简单的醚类，它不含C-C健，可以由天然气、煤、生物质燃料等大量制备，而且具有较高的辛烷值(55-60)，较低的碳氢化合物、CO排放，没有PM排放，因而被认为是一种非常有发展前景的发动机替代燃料，已经受到了广泛的关注。但是，在发动机燃用DME的实验研究表明，在其排气中有非常规污染物甲醛(HCHO)、乙醛(CH3CHO)，甲酸甲酯(HCOOCH3)等排放，这些有机污染物会对环境和人类健康产生严重的危害，在环保要求日益严格的趋势下，这就制约了二甲醚的规模化应用。因此，对二甲醚燃烧性能、氧化中间产物甲醛等的产生和排放机理、相关污染物抑制技术需要进行着重研究，这对二甲醚燃料规模化应用、相关二甲醚燃烧器设计、燃烧性能的优化以及污染物控制技术的研究等都有着重要的理论指导意义和参考价值。 为了充分理解二甲醚燃料的燃烧特性、非常规污染物甲醛的产生和消耗机理，本文以实验和二甲醚化学反应动力学机理为指导，对二甲醚预混燃烧的燃烧特性、相关污染物和甲醛产生和消耗的机理做了详细的研究；并针对二甲醚燃料的不同应用背景，对二甲醚燃料低温下的氧化和甲醛生成特性、DME与LPG掺混燃烧特性和甲醛生成消耗机理进行了深入的研究，具体工作有： 研究了二甲醚预混燃烧特性、火焰中甲醛等污染物的产生特性，建立了火焰中甲醛取样、测量的方法和实验平台。并对当量比和燃料流量对二甲醚预混燃烧的燃烧特性、甲醛生成特性影响进行了考察，实验结果表明二甲醚是一种优良的替代燃料，在二甲醚火焰中甲醛是其重要的中间产物，甲醛浓度分布与当量比和预混气流速密切相关。当量比一定时，随着预混气流速的增加，火焰中甲醛产生的范围变窄，且甲醛浓度峰值逐渐移向燃烧器出口，而甲醛产生的浓度峰值数值上相差不大，甲醛在形成峰值后被快速消耗，其浓度在0.1mm内下降到几乎为零；在二甲醚流量一定时，随着当量比的增加，火焰中产生了更多的甲醛，火焰中甲醛分布的范围也变宽，而且当量比越大，甲醛的消耗也变缓，在当量比为0.8时，甲醛浓度从峰值到被消耗距离变为2mm，远大于当量比0.6和0.7下0.1mm的消耗距离。 对二甲醚预混燃烧进行数值研究和化学动力反应机理分析后发现，在二甲醚燃烧中，二甲醚的氧化反应途径主要是通过脱氢生成CH3OCH2和在高温下的直接裂解反应而进行，其中脱氢反应是低温下二甲醚消耗的主要途径，而在高温反应阶段(T>1000K)，DME的直接裂解和燃料的脱氢反应共同起主导作用；非常规污染物甲醛通过DME脱氢产物CH3OCH2的裂解和外部氧化而生成，在高温时通过DME直接裂解后被氧化产生；甲醛的消耗反应则是通过与H、O、OH和CH3基的氧化反应而完成，其中与O、OH基的反应在燃烧中起主要作用。因此二甲醚燃烧中甲醛的抑制关键在燃烧中甲醛的消耗阶段，采取有效的技术措施，如优化燃烧器结构提高二甲醚燃烧室内的温度、在燃烧区保证充足的氧气供应等措施，加快甲醛的消耗速度以促进其被完全氧化，可以实现二甲醚燃烧中甲醛的零排放。 针对柴油发动机燃用DME燃料时，燃料在燃烧室停留时间过短，造成部分未燃二甲醚随尾气排放，对DME在低温下(<800K)的氧化特性和甲醛生成特性进行了实验研究。结果表明，二甲醚在200℃左右就开始发生氧化反应，在200~400℃温度范围内被氧化而生成大量中间产物甲醛，且在此温度范围内甲醛不易被氧化分解，而发动机尾气温度（一般在200~600℃之间）处于甲醛最易生成的范围，因此未燃二甲醚在尾气中发生低温氧化反应生成的甲醛，是发动机燃用DME而排放高浓度甲醛的重要来源。研究结论为柴油发动机燃用DME抑制非常规污染物甲醛的排放提供了新的参考。 DME作为替代燃料，部分替代及与其他石化系燃料掺混燃烧是目前的重要应用方向，对DME与LPG掺混燃烧特性和甲醛生成特性进行了实验研究，结果表明，在DME与LPG掺混燃烧中，固定当量比和燃料质量流量的条件下，两种燃料存在一个最佳掺混比，在此掺混比例下，混合燃料着火提前，燃料燃烧性能最佳；DME与LPG混合燃料中，二甲醚是燃烧中甲醛产生的主要来源，控制DME的完全氧化和燃烧是抑制DME与LPG掺混燃烧排放甲醛的主要途径，这为更好地应用DME与LPG混合燃料提供了参考。 能否清洁高效燃烧是决定替代燃料DME应用规模和途径中的关键任务，本文对DME燃烧特性、非常规污染物甲醛的生成排放特性、低温下DME的氧化特性、DME与LPG掺混燃烧特性的研究，从不用的应用方向和领域对DME清洁高效燃烧进行了探讨和研究，研究成果可以为清洁高效利用二甲醚、抑制甲醛排放，以及开发相关燃烧技术、燃烧器提供实验依据和理论指导。本文在DME燃烧特性和非常规污染物甲醛的产生与排放方面取得了具有创新性的研究结果。

Partial oxidation reforming of biomass fuel gas over nickel-based monolithic catalyst with naphthalene as model compound

With naphthalene as biomass tar model compound, partial oxidation reforming (with addition of O-2) and dry reforming of biomass fuel gas were investigated over nickel-based monoliths at the same conditions. The results showed that both processes had excellent performance in upgrading biomass raw fuel gas. Above 99% of naphthalene was converted into synthesis gases (H-2+CO). About 2.8 wt% of coke deposition was detected on the catalyst surface for dry reforming process at 750 degrees C during 108 h lifetime test. However, no Coke deposition was detected for partial oxidation reforming process, which indicated that addition of O-2 can effectively prohibit the coke formation. O-2 Can also increase the CH4 conversion and H-2/CO ratio of the producer gas. The average conversion of CH4 in dry and partial oxidation reforming process was 92% and 95%, respectively. The average H-2/CO ratio increased from 0.95 to 1.1 with the addition of O-2, which was suitable to be used as synthesis gas for dimethyl ether (DME) synthesis.

Bio-syngas production from biomass catalytic gasification

A promising application for biomass is liquid fuel synthesis, such as methanol or dimethyl ether (DME). Previous studies have studied syngas production from biomass-derived char, oil and gas. This study intends to explore the technology of syngas production from direct biomass gasification, which may be more economically viable. The ratio of H-2/CO is an important factor that affects the performance of this process. In this study, the characteristics of biomass gasification gas, such as H-2/CO and tar yield, as well as its potential for liquid fuel synthesis is explored. A fluidized bed gasifier and a downstream fixed bed are employed as the reactors. Two kinds of catalysts: dolomite and nickel based catalyst are applied, and they are used in the fluidized bed and fixed bed, respectively. The gasifying agent used is an air-steam mixture. The main variables studied are temperature and weight hourly space velocity in the fixed bed reactor. Over the ranges of operating conditions examined, the maximum H-2 content reaches 52.47 vol%, while the ratio of H-2/CO varies between 1.87 and 4.45. The results indicate that an appropriate temperature (750 degrees C for the current study) and more catalyst are favorable for getting a higher H-2/CO ratio. Using a simple first order kinetic model for the overall tar removal reaction, the apparent activation energies and pre-exponential factors are obtained for nickel based catalysts. The results indicate that biomass gasification gas has great potential for liquid fuel synthesis after further processing.

Enhanced photoluminescence of Nd2O3 nanoparticles modified with silane-coupling agent: Fluorescent resonance energy transfer analysis

A liquid laser medium with a lifetime of 492 mu s and a fluorescent quantum efficiency of 52.5% has been presented by stably dispersing dimethyl dichorosilane-modified Nd2O3 nanoparticles in dimethylsulfoxide. Its optical properties and mechanism were investigated and explained by fluorescence resonance energy transfer theory. The calculation result shows that the quenching of Nd-III F-4(3/2)-> I-4(11/2) transition via O-H vibrational excitation can be eventually neglected. The main reason is that the silane-coupling agent molecules remove the -OH groups on Nd2O3 nanoparticles and form a protective out layer. (c) 2007 American Institute of Physics.

Dual-wavelength photochromic fulgides for parallel recording memory

Two photochromic fulgides, 2-{2-[4-(N,N-dimethylnilino)-5-methyl-4-oxazoly]}ethylidene-4-(1-methylethylidene) tetrahydrofuran-2,5-dione (A) and 3-(1,2-dimethyl-5-phenyl-3-pyrolloethylidene)-4-(1-methylethylidene)tetrahydrofuran-2,5-dione (B), doped in PMMA as candidates of dual-wavelength optical memory for parallel recording has been investigated. With 488 nm-laser and 650 nm-laser, both "cross" and "star" images are recorded on the fulgides-PMMA film and read out clearly, respectively. Crosstalk between two fulgides in PMMA matrix and nondestructive readout has also been explored. The results show that no significant cross-talk is detected between them, and nondestructive readout is up to 201 times. (C) 2005 Elsevier B.V. All rights reserved.

Synthesis and application on parallel image storage of bisfurylfulgide

A bisfurylfulgide, E, E-3,4-bis[1-(2,5-dimethyl-3-furyl)ethylidene]-3,4-dihydrofuran-2,5-dione, is synthesized by Stobbe condensation reaction. The molecular structure of target compound is confirmed by single crystal X-ray crystallography analysis. It shows that the distances between two possible reaction sites of molecule are 0.3394 and 0.3406 nm respectively, which is favorable to photocyclization. The photochromic properties of this compound in different solvents are investigated, and the result shows that the compound exhibits excellent photochromic behavior. The primary result of applied research on parallel image storage is also presented.

杉木人工林土壤中毒性化感物质的鉴定与来源

针对杉木化感物质种类的争论，我们以生测活性做导向，对杉木人工林土壤中毒性化感物质进行了分离，并通过质谱、核磁共振等仪器对化感物质的化学结构进行了鉴定，然后研究了其活性和来源，同时从土壤养分和化感作用两个方面对杉木火力楠混交林解决杉木连栽障碍的作用机制进行了研究。结果表明： (1) 虽然不同连栽代数土壤养分与杉木幼苗苗高存在正相关关系，即随着杉木连栽代数的增加，土壤养分含量逐渐降低，土壤处理的杉木幼苗苗高也逐渐降低，但是同一林分中，距杉木根系不同距离的土壤养分含量与杉木幼苗根长存在负相关关系。在一代和二代杉木林中，与杉木林地土相比，杉木根际土能够显著地抑制杉木幼苗根生长。单用土壤养分匮缺来解释连栽杉木生产力下降是不充分的，杉木化感作用也是连栽障碍的重要原因之一。 (2) 从杉木人工林土壤中检测到8种酚酸类物质：对羟基苯甲酸、香草酸、阿魏酸、苯甲酸、肉桂酸、香草醛、异香草醛和香豆素。自然浓度的酚类物质没有抑制杉木幼苗的生长，反而促进了杉木幼苗的生长。从连栽杉木林土壤分离到一种新环二肽(6-hydroxy-1,3-dimethyl-8-nonadecyl-[1,4]-diazocane-2,5-diketone)，它在自然浓度条件下能够显著地抑制杉木幼苗的生长。而且当浓度达到40nmol•ml-1时，环二肽对杉木幼苗根生长的抑制率接近50%，显示其具有较高的化感活性。因此，引起连栽杉木生产力下降的化感物质不是对羟基苯甲酸等酚酸类物质，而是从杉木林土壤中分离得到的环二肽。 (3) 杉木各组织中环二肽含量最多的为叶凋落物，而且用杉木叶凋落物处理的土壤中环二肽含量显著增加，这说明杉木叶凋落物是环二肽的重要来源之一。杉木根系分泌物中含有环二肽，而且随着连栽代数的增加，杉木根系分泌环二肽的速率也增加，这说明杉木根系分泌物也是环二肽的重要来源之一。杉木成熟林每年每公顷凋落的叶凋落物中含有约0.173~0.418 mol的环二肽，而每年每公顷杉木根系分泌的环二肽可达1.289~1.362 mol，显著高于前者。因此，杉木根系分泌物是杉木化感物质环二肽最重要的来源。 (4) 杉木火力楠混交林能够提高土壤有机质、全氮等养分含量，增加土壤微生物数量及土壤蔗糖酶、脲酶和磷酸酶等土壤酶活性，从而提高了混交林土壤熟化程度，加速了土壤有机质的转化速率，增强了土壤养分的供应能力，改善了土壤养分匮缺的状况。与二代杉木林相比，杉木火力楠混交林中杉木根系分泌环二肽的速率降低了33.2%，杉木火力楠混交林能减少环二肽的释放量，从而降低土壤中化感物质的含量，减弱林地土壤对杉木幼苗生长的抑制作用，缓解了连栽杉木自毒作用。因此，杉木火力楠混交林是一种高生产力和生态协调的造林模式。