二氟甲基自由基反应及其在18F标记中的应用

随着正电子发射断层扫描(PET)技术的进步, 高效¹⁸F标记反应显现出重大的研究价值. 同时, 在有机氟化学的快速发展下, 研究人员已开发出一系列产生二氟甲基自由基(·CHF₂)的一碳合成子, 得以被引入到¹⁸F标记反应中. 本文从化学原理出发, 总结了近年来·CHF₂合成子、 碳氢键活化反应及¹⁸F标记的研究, 并展望了未来的研究趋势.     

用新型氧化剂二氧六环·NO2氧化合成芳基芳酰基偶氮化合物

在丙酮溶剂中,利用新型氧化剂二氧六环.NO2将9个二芳基取代酰肼氧化为芳基芳酰基偶氮化合物.该方法条件温和,现象明显,产率较高,是合成该类化合物的又一新方法.产物的结构经元素分析,红外光谱和1H NMR谱验证.     

TiO_2·SiO_2/beads的制备与性质

研究以空心玻璃微球为载体 ,用Sol gel法制备附载型复合光催化剂的过程 ,并对TiO2 ·SiO2 /beads光催化活性进行评价 .结果表明 :复合型光催化剂TiO2 ·SiO2 摩尔比存在最佳值 ,当n(TiO2 ) /m(SiO2 ) =30 /70时 ,光活性是在同样降解条件下 ,同样含量DegussaP 2 5TiO2 的 2倍左右 .同时研究制备方法、制备条件、TiO2 ·SiO2 摩尔比、TiO2 ·SiO2 /beads吸附性、活化条件、比表面等因素对附载型复合光催化剂活性的影响 .     

TiO_2·Al_2O_3/beads光活性的研究

研究以空心玻璃微球为载体 ,用溶胶 凝胶法制备附载型复合光催化剂的过程 .对TiO2 ·Al2 O3/beads光催化活性进行评价 ,并利用XRD、TEM、SEM对附载型复合光催化剂进行表征 ,同时对TiO2 ·Al2 O3/beads的吸附性和比表面进行测试 .结果表明 ,附载型复合光催化剂TiO2 ·Al2 O3/beads光活性显著提高且组分摩尔比存在最佳值 .当n(TiO2 ) /m (Al2 O3) =97/3时 ,其最高光解率为同样降解条件下 ,同样含量DegussaP 2 5TiO2 光解率的 1 5倍左右 .探讨了TiO2 ·Al2 O3/beads光活性提高的主要因素 ,认为纳米尺寸TiO2 和TiO2 ·Al2 O3/beads吸附性是光活性提高的最主要因素 ,另外 ,活化条件和比表面也是影响光活性的主要因素     

Pt /TiO? 的光催化氧化性能

以 TiO?或载铂 TiO?为催化剂 ,利用波长为 254nm 的紫外光辐照 ,研究了可溶性染料 3B艳红和活性艳蓝KN -R的光催化氧化 , 探讨了催化剂的焙烧温度及投料量、 染料水溶液的 pH 值等因素对光催化氧化性能的影响 . 结果表明 ,经 350℃焙烧的 Pt / TiO?催化剂对 3B艳红或活性艳蓝 KN-R染料溶液有良好的光催化氧化活性 ,酸性溶液对染料的光催化氧化有利 . 染料光催化氧化近似遵循一级反应动力学 .     

K1.9Na0.1Ta2O6·2H2O的形貌可控合成及光催化性能

钽酸盐光催化材料往往具有较高的光催化活性.近年报道的钽酸盐光催化剂主要采用传统高温固相法制备,该方法不可避免地导致高温烧结,使合成的钽酸盐颗粒较大,比表面积较小,而且该方法具有不可克服的晶体转变、结晶度差、分解、挥发和纯度低等缺点,使制备的光催化剂活性较低.而纳米材料由于粒径小,提高了电子和空穴的扩散速度,大大降低了电子和空穴在材料内的复合几率,从而使光催化材料活性大幅提高.此外,粒径减小也使表面原子迅速增多,减小了光的漫反射,同时也使光吸收不易达到饱和,有利于提高光吸收效率.因此,制备纳米材料是提高半导体光催化剂活性的有效手段.目前,采用湿化学的溶液合成方法能在较低温度下获得粒度小且均匀、计量比准确的光催化剂粉末,但是合成钽酸盐光催化剂的水溶性钽前体即乙醇钽(或氯化钽)价格昂贵,而且对潮湿极端敏感易水解,使产物纯度降低,不适合工业化生产.近年来,尽管有文献报道以Ta2O5为原料利用水热、溶胶-凝胶和共沉淀等方法制备钽酸盐,但其合成条件苛刻,合成步骤复杂,合成周期较长,耗能大,产物产量较低且不均匀,很难实现产物的形貌控制来筛选出适合光催化反应的材料.目前关于纳米钽酸盐光催化材料形貌控制方面的研究鲜有报道,主要是由于Ta2O5极难溶解,很难实现液相合成.因此,纳米钽酸盐光催化材料的可控制备是研究的难点.我们发展了熔盐-水热制备钽酸盐新方法,实现了K1.9Na0.1Ta2O6·2H2O的可控制备.利用熔盐法制备一种可溶性钽酸盐前驱体,再通过水热法在液相进一步反应制得纳米钽酸盐光催化材料K1.9Na0.1Ta2O6·2H2O,通过控制反应条件实现了纳米钽酸盐K1.9Na0.1Ta2O6·2H2O的形貌调控,得到了纳米球、微球、去顶八面体形貌和类似榴莲形貌等不同形貌,而利用其它制备方法很难控制钽酸盐的形貌.另外,研究了制备材料吸附和光催化降解罗丹明B的性能,发现该材料光催化活性与形貌直接相关.表征结果表明,制备样品的X射线衍射(XRD)谱图尖锐,结晶较好,其各衍射峰位置均与K2Ta2O6一致,为纯相烧绿石结构,属于立方晶系,空间群为Fd3m.通过分析合成材料的元素组成及含量,确定K：Na：Ta比例近似为1.9：0.1：2.为了进一步研究属于烧绿石型化合物K1.9Na0.1Ta2O6·2H2O的结构,对不同形貌材料进行了红外光谱测试,所有样品在450–1000 cm–1的谱峰可归属于(K, Na)–O和Ta–O键的振动,3300 cm–1左右为晶体结构中水的羟基伸缩振动峰,1720 cm–1左右是晶体结构中水的弯曲振动峰.可以看出,不同形貌材料的红外谱图吸收带宽度和位置十分相似,只存在小的偏移和变化,进一步表明不同形貌的材料具有相似的晶体结构,与XRD结果一致.差热-热重分析确定了结构中所含结晶水数量近似为2.光催化性能测试结果表明,具有纳米球形貌的材料比表面积较大,因而光催化活性最高.     

NTO及其铷盐水溶液光谱研究

用Raman光谱和FTIR光谱对NTO晶体和不同pH值的水溶液以及配合物Rb(NTO)·H₂O的水溶液进行了研究。从已测定的单晶结构表明金属离子与NTO-的CNO,CO基团和水分子中的氮、氧原子键合。Raman和FTIR光谱特征的主强峰也表明是在NTO-的CNO₂和CO基团的氧和氮原子与金属离子形成弱配位键。该配合物饱和水溶液的振动光谱峰与晶体的振动光谱峰基本上吻合。表明该配合物在水中键合未发生变化,因而NTO的碱金属配合物在水溶液中的振动光谱峰归属可以用晶体中键的形成来说明。讨论了金属离子与NTO必需在碱性水中才能形成NTO的金属配合物机理。     

镨甘氨酸高氯酸盐的低温热容和标准生成焓的测定

The rare-earth perchlorate complex compound with DL-α-Glycin was synthesized. Its structure was characterized as Pr2(DL-α-Gly)6(H2O)4(ClO4)6·5H2O by TG, DTA and chemical analysis, and the purity was 99.63 %. The melting point analysis experiment indicates that the complex has no stable melting point. The heat capacity of the complex was measured by a high-precise fully-automated adiabatic calorimeter from 79 to 371 K. No obvious abnormal heat capacity was observed within this low temperature range. The thermal decomposition temperature range of the complex was near 333 K. Its decomposition temperature, decomposition enthalpy and entropy were 320.010 K, 40.714 kJ/mol and 127.227 J/molK, respectively. The polynomial equation of heat capacity of this compound was simulated by the computer within the temperature range of 78.939~301.295 K. The standard enthalpy of formation was -8022.802 kJ/mol measured by isoperable reaction calorimeter at 298.15 K.     

Numerical simulation of pedestrian flow past a circular obstruction

In this paper, a revisiting Hughes' dynamic continuum model is used to investigate and predict the essential macroscopic characteristics of pedestrian flow, such as flow, density and average speed, in a two dimensional continuous walking facility scattered with a circular obstruction. It is assumed that pedestrians prefer to walk a path with the lowest instantaneous travel cost from origin to destination, under the consideration of the current traffic conditions and the tendency to avoid a high-density region and an obstruction. An algorithm for the pedestrian flow model is based on a cellcentered finite volume method for a scalar conservation law equation, a fast sweeping method for an Eikonal-type equation and a second-order TVD Runge-Kutta method for the time integration on unstructured meshes. Numerical results demonstrate the effectiveness of the algorithm. It is verified that density distribution of pedestrian flow is influenced by the position of the obstruction and the path-choice behavior of pedestrians.     

Variations in net litter nutrient input associated with tree species influence on soil nutrient contents in a subtropical evergreen broad-leaved forest

The influence of tree species on soils has received much attention,but we know little about either the pattern and underlying mechanisms of net nutrient and carbon inputs under canopy for various tree species or the effects of net nutrient input on soil nutrient contents.To address these issues,we selected three tree species with distinct leaf sizes and arranged litter traps around the target individuals to test what affected net nutrient and carbon inputs under canopy of target individuals,and how net nutrient inputs influenced soil nutrient contents.The results showed that net litter manganese(Mn)and lignin inputs were significantly different among these tree species,as well as soil exchangeable potassium(K),available iron(Fe)and available Mn.The results also revealed that the species with the smallest sized leaves may stimulate more net Mn and lignin inputs than the species with the largest sized leaves.At the same time,net nutrient inputs correlated with soil available Fe,while the ratio of lignin to nitrogen of net litter correlated with total phosphorus contents.These results demonstrated that litter production may be the main factor deciding net nutrient and carbon inputs under different tree species’canopy,which significantly differentiated soil iron’s availability.