有机含能二硝酸盐的研究进展

综述了乙二胺二硝酸盐、偶氮二甲醚二硝酸盐、碳酰肼二硝酸盐、氨基胍类二硝酸盐和四嗪类二硝酸盐等有机含能二硝酸盐的主要合成方法及应用前景。     

微纳加工技术在超微电极制备中的应用

从电极材料、绝缘材料、薄膜的图形化等方面,评述了微纳加工技术在单超微电极和超微电极阵列制备中的应用。在单超微电极的制备中,随着微纳加工技术的引入,可以实现具有规则几何形状和微小电极尖端的单超微电极的重复性制备。     

杂环偶氮类显色剂在生物样品铜、锌、铁光度测定法中的应用

综述了近年来应用偶氮类显色剂测定生物样品中铜、锌、铁的光度分析发展状况，从吡啶偶氮类试剂、咪唑偶氮类试剂以及三氮唑偶氮类试剂加以归纳，引用文献44篇。     

等离子体原子光谱分析中溶液样品雾化进样方法的新进展

对近年来等离子体原子光谱分析中溶液样品引入方法的新进展作了综述，其中包括气动雾化法、超声雾化法、热雾化法、悬浆雾化法、高水压雾化法及电喷雾法等。文中还根据本课题组多年来的研究经验对每种方法的优缺点及其应用作了简要的介绍和评论。     

微流控芯片免疫分析方法研究进展

综述了微流控芯片免疫分析方法研究新进展。对有关芯片进行了初步分类，并评述了各类芯片的性能与优缺点。尤为关注免疫分析微流控芯片在临床诊断、环境分析等领域的应用研究。引用文献33篇。     

高聚物/碳纳米管复合材料研究进展

简要介绍了近几年高聚物／碳纳米管复合材料的研究进展，并对高聚物／碳纳米管复合材料研究中的工艺、方法、实际应用及存在问题进行了讨论。参考文献18篇。     

仲胺的合成方法新进展

介绍了近10年来合成仲胺的新方法,包括直接N-烷基化法,还原胺化法,苯并异噁唑类和2-羟基苯甲醛肟类的还原,三相反应法,保护-烷基化-去保护和不对称硼酸酯法。参考文献33篇。     

甘氨酸的应用与合成工艺进展

综述了甘氨酸在医药,食品,农药等方面的应用,并介绍了国内外甘氨酸合成工艺的进展.     

A Primer on the Analytical Aspects of Silicones at Trace Levels-Challenges and Artifacts – A Review

Silicones (polydimethylsiloxanes) find use in a wide variety of industrial and consumer product applications because of their outstanding properties. Potential human exposure to silicones occurs at the work place during manufacturing and product formulation, as well as through the normal use of consumer products containing them.The entry of silicones into various environmental compartments raised health and safety concerns from potential exposure and mandated numerous environmental and toxicological studies. Such studies require qualitative and quantitative determination of silicone species at trace levels. However, the ubiquitous presence of silicones coupled with their unique chemistry renders their analysis at trace levels challenging.This paper provides a consolidated account of various aspects silicones that must be borne in mind to obtain reliable data. The following are some of topics discussed: differences in the chemistry of silicones vs carbon; precautions in sample handling to avoid losses and inadvertent chemical transformation; potential sources for artifacts and interferences that could lead to systematic errors and data misinterpretation; sources for background and the need for matrix matched blank experiments; distinguishing silicones from silicates to avoid overestimation; potential for incorrect structural assignments; preventing inadvertent contamination; questionable claims on the presence of silicones in biological matrices including that of silicone implants.