阳离子聚合合成聚苯乙烯大分子单体

<正> 近十年来,对大分子单体的合成和表征进行了较广泛的研究,其中尤以聚苯乙烯大分子单体研究得更多。Milkovich等用阴离子聚合合成了一系列具有不同端基的大分子单体。本文采用实验要求比阴离子简单的阳离子聚合方法,用对-氯甲基-β-溴乙苯和三     

乙烯-α-烯烃共聚物的结晶性能及其临界序列结晶长度的研究

本文用DSC、WAXD及偏光显微镜(PLM)方法,研究了化学反应法催化剂合成的乙烯-α-烯烃共聚物的结晶性能及其临界序列结晶长度。结果表明,随共聚物中α-烯烃含量增大,共聚物的微晶尺寸、结晶度及熔点均逐渐减小,而晶胞参数增大。变化的辐度戊烯>辛烯。共聚物的临界结晶序列长度(n)和k值均戊烯<辛烯。上述结果表明影响支链进入晶格的主要因素是α-烯烃支链长度和结构。     

A wide-angle secondary ion probe for organic ion imaging

A secondary ion source has been developed for an organic ion microprobe capable of imaging samples up to 2 em in diameter. The source uses a focused 5 keY Cs⁺ ion beam which is rastered across the sample surface, and secondary ions from each point on the sample are collected and formed into a low energy beam to be analyzed by a quadrupole mass filter. Dynamic emittance matching is employed to deflect ions from off-axis points on the sample back onto the mass analyzer axis. Rastering and dynamic emittance matching are rapidly controlled by assembly language programs using an IBM/AT (80286) type computer. A low energy ion monitor was used to tune and evaluate the secondary ion source by providing a magnified cross-sectional image of the ion beam at the source exit aperture. A well-focused and centered secondary ion beam was obtained from each point on the sample, indicating that large-scale dynamic emittance matching with high collection efficiency is possible. Mass resolved images of grids and glycerol samples are shown to demonstrate the performance of the integrated secondary ion source mass analyzer and control system.     

席夫碱钼(Ⅵ)配合物的制备及催化大豆油环氧化

以水杨醛和邻氨基酚为起始原料, 合成了N-亚水杨醛基-2-氨基苯酚配体(H₂SAP); H₂SAP与乙酰丙酮钼的无水乙醇溶液反应, 制得席夫碱钼(Ⅵ)配合物MoO₂(SAP)(EtOH); 采用元素分析、红外光谱、紫外光谱、¹H NMR及热重分析对配合物进行了表征. 以MoO₂(SAP)(EtOH)为催化剂, 研究了其催化合成环氧大豆油的催化性能, 考察了氧源种类、反应温度、反应时间及溶剂/助剂等因素对环氧化反应的影响. 结果表明, 以65%(质量分数)叔丁基过氧化氢(65% TBHP)为氧源, 在80℃时反应4 h, 转化率和选择性分别为43.0%和67.2%, MoO₂(SAP)(EtOH)在催化体系中表现出强烈的助剂效应, 当加入强给电子配体咪唑时, 环氧产率显著降低. 同时对该配合物催化环氧化机理进行了初步探讨.     

纳米级包覆层厚度对染料敏化太阳电池中电子注入效率和电子寿命的影响

选取氧化钐作为包覆材料, 采用浸渍法对已烧结好的纳米TiO₂多孔薄膜电极进行修饰, 并将其应用于染料敏化太阳电池中, 研究了纳米级氧化钐包覆层厚度及均匀性对染料敏化太阳电池中电子注入效率和电子复合过程的影响和作用机制. 结果表明, 包覆层厚度对电子注入效率和电子复合具有明显影响, 且电子注入效率和电子寿命随包覆层厚度的增加而呈现相反的变化趋势, 包覆层厚度在0.4 nm以内, 电池性能最好.     

Characterization of sealed radioactive sources: uncertainty analysis to improve detection methods

A radioactive ¹³⁷Cs source has been analyzed for the radioactive parent ¹³⁷Cs and stable decay daughter ¹³⁷Ba. The ratio of the daughter to parent atoms is used to estimate the date when Cs was purified prior to source encapsulation (an “age” since purification). The isotopes were analyzed by inductively coupled plasma mass spectrometry (ICP-MS) after chemical separation. In addition, Ba was analyzed by isotope dilution ICP-MS (ID-ICP-MS). A detailed error analysis of the mass spectrometric work has been undertaken to identify areas of improvement, as well as quantifying the effect the errors have on the “age” determined. This paper reports an uncertainty analysis to identifying areas of improvement and alternative techniques that may reduce the uncertainties. In particular, work on isotope dilution using ICP-MS for the “age” determination of sealed sources is presented. The results will be compared to the original work done using external standards to calibrate the ICP-MS instrument.     

基于表面修饰聚丙烯酸合成超顺磁/荧光纳米复合粒子

在聚丙烯酸修饰的Fe₃O₄纳米粒子表面共价结合罗丹明B, 获得分散性和荧光信号均得到改善的超顺磁/荧光复合纳米材料. 分别用透射电子显微镜(TEM)、傅里叶变换红外光谱仪(FTIR)、热重分析仪、荧光光谱仪、X射线衍射仪(XRD) 和振动样品磁强计(VSM) 对合成的粒子进行了表征. 结果表明, 羧基化的Fe₃O₄纳米粒子和Fe₃O₄-荧光纳米复合材料的粒径基本相同, 为6～10 nm. Fe₃O₄-荧光纳米复合材料的饱和磁化强度为39.2 A•m²/kg, 室温下呈现超顺磁性, 具有较强的荧光信号.     

甲壳素/甲壳胺的聚集态结构及性能

制备了不同脱乙酰度的甲壳素,并对脱酰化反应进行了研究,找出了适合不同脱酰度甲壳素的溶剂,探讨了制样温度与甲壳胺膜的结晶形态和力学性能之间的关系,比较了甲壳素、甲壳胺及不同来源甲壳素的结晶形态.     

双室聚丙烯低温反应瓶的设计制造及在硅芴合成中的应用

设计制造了瓶底有一大一小2个室的聚丙烯（PP）塑料反应瓶,将其用于活泼的金属有机反应中硅芴的合成。 首先将制备的2,2′-二锂基联苯（2）转移到小室中,然后将SiCl4溶液注入大室内,再将反应瓶倾斜,使得化合物2的溶液分次进入大室进行反应,保证反应在SiCl4充分过量条件下进行,可大大降低螺硅芴（4）副反应产物的生成,使9,9-苯基硅芴的产率由20%提高至35%~40%,SiCl4的用量降至4倍摩尔量,从而也降低了产物后处理中柱分离的处理量。