托品酮衍生物的合成及抗糖尿病活性

从6-羟基托品酮出发,经过羟基的乙酰基化和苯甲酰基化,再通过还原氨化高效地得到含有活泼胺基的2个母核化合物。 2个母核化合物与不同的酰氯反应,得到一系列托品酮衍生物。 该衍生物经过体外过氧化物酶增生因子活化受体γ亚型（PPARγ）激活、二肽基肽酶Ⅳ （DPP-Ⅳ）抑制实验,发现多数化合物对DPP-Ⅳ显示抑制活性,其中2个化合物(3 μmol/L DMSO溶液)对DPP-Ⅳ抑制率超过30%。     

磷酸钛固载磷钨酸非均相催化合成异戊酸己酯

通过在300℃下焙烧2h制备了磷酸钛固载15%磷钨酸H3PW12O40(简记为HPW)非均相酯化催化剂HPW/Ti3(PO4)4;采用红外光谱仪分析了催化剂的结构;基于异戊酸与正己醇的酯化反应考察了催化剂用量、n(正己醇)∶n(异戊酸)、反应时间、带水剂种类和催化剂重复使用性能等因素对酯化率的影响.结果表明,该催化剂催化合成异戊酸己酯的适宜反应条件为:0.2mol异戊酸,催化剂用量0.6g,n(正己醇)∶n(异戊酸)=1.6∶1,反应时间4.5h,环己烷10mL;相应的酯化率达95.1%.与此同时,该催化剂循环利用6次后酯化率不低于84%.     

人工神经网络用于有机磷酸酯类化合物的定量结构色谱保留相关研究

采用误差反传前向人工神经网络(ANN),研究了35种有机磷酸酯类化合物在3种不同极性固定相上的结构与其色谱保留(QSRR)之间的定量关系。以其分子电性距离矢量(或分子拓扑指数)作为输入、色谱保留值作为输出,采用内外双重验证的办法分析和检验所得模型的稳定性和外推能力。结果表明,ANN模型获得了比多元线性回归(MLR)模型更好的拟合效果。使用MLR模型时QSRR模型相关性受色谱固定相极性的影响,而采用ANN模型无此现象。同时,ANN模型解决了QSRR中预测维数为1时耗时较长的问题。通过ANN建模可以同时预测3种不同极性固定相上的色谱保留值,可大大缩短建模和预测所需的时间。     

Yb3+/Tm3+共掺杂的钨酸镉纳米晶发光性能的研究

本文采用水热法制备了稀土离子Yb³⁺/Tm³⁺共掺杂的钨酸镉纳米晶。运用X-射线粉末衍射、场发射环境扫描电子显微镜和光谱分析对制备的样品的结构和发光性能进行了表征。根据XRD图谱可知, 钨酸镉为单斜晶系, 晶粒平均尺寸在28 nm左右。从ESEM图片可明显看出, 钨酸镉呈纳米棒结构, 直径在30 nm左右, 长径比在5~8之间。利用980 nm半导体激光器激发钨酸镉纳米晶得到样品的发射光谱, 存在一个较强的蓝光发射, 发光峰位于481 nm,对应于Tm³⁺的¹G₄→³H₆能级的跃迁, 分析了Tm³⁺/Yb³⁺离子共掺体系的发光机制。讨论了发光强度随稀土离子浓度的变化, 当Tm³⁺离子的掺杂浓度在2%, Yb³⁺/Tm³⁺物质的量浓度比为10:1时钨酸镉纳米晶的发光强度最强。根据泵浦功率与发光强度之间的关系, 可知处于481 nm的蓝光发射属于三光子过程, 由发光强度与掺杂浓度之间的双对数衰减曲线可知, 引起蓝光发射源于Tm³⁺的电偶极跃迁。     

超高效液相色谱-串联质谱法测定鱼粉中孔雀石绿

建立了鱼粉中孔雀石绿及其代谢物隐色孔雀石绿残留量的超高效液相色谱-串联质谱仪(UPLC-MS-MS)测定法。样品经乙腈提取,中性Al2O3固相小柱净化,超高效液相色谱C18柱分离,电喷雾正离子多反应模式(MRM)检测,内标法定量。方法的定量限为1.00μg/kg,线性范围为0.25～20.0μg/L。在1.00～20.0μg/kg的加标量下,孔雀石绿平均回收率范围为85.3%～104.4%,隐色孔雀石绿平均回收率范围为85.7%～101.4%,相对标准偏差均小于15%。方法适用于鱼粉样品中孔雀石绿残留的快速检测。     

相转移催化无溶剂合成N-(ω-溴烷基)邻苯二甲酰亚胺

本文以N-(3-溴丙基)邻苯二甲酰亚胺合成为模板反应,研究了相转移催化无溶剂合成N-(ω-溴烷基)邻苯二甲酰亚胺的影响因素,实验证实相转移催化剂及其用量、催化剂K2CO3的用量等对反应的影响明显,得到N-(3-溴丙基)邻苯二甲酰亚胺的优化合成条件为:反应物配比为PA∶C3Br2∶K2CO3∶TBAB=1∶2∶4∶0.2,反应温度80℃,反应时间1h,N-(3-溴丙基)邻苯二甲酰亚胺产率为92%。在相同反应条件下,N-(ω-溴烷基)邻苯二甲酰亚胺的产率随α,ω-二溴烷烃的烷基链长度增加而降低。     

硅胶-氰丙基复合固相萃取柱分离原油中饱和烃及芳烃组分

探讨了硅胶-氰丙基(SiO2/C3-CN,(1 g/0.5 g,6 mL))复合固相萃取柱分离与净化原油中饱和烃和芳烃组分的方法。结果表明:SiO2/C3-CN复合固相萃取柱较单一硅胶(SiO2)小柱的分离效果好,仅使用4.5 mL正己烷和4.5 mL正己烷-二氯甲烷(1∶1)洗脱即可实现饱和烃和芳烃组分的完全分离与满意回收(回收率分别为98%和99%);而单一硅胶小柱存在低环数芳烃化合物(如萘及其甲基系列、苊等)与饱和烃组分的共洗脱现象。通过对原油实物样品的测定,饱和烃和芳烃组分在硅胶-氰丙基复合柱上经正己烷、正己烷-二氯甲烷(体积比1∶1)的洗脱行为与标准混合液完全一致,该方法实用可靠、流程简单、试剂消耗少、精密度良好(RSD为4.2%～8.5%),适用于石油样品中饱和烃和芳烃组分的定量分析。     

利用“网包法”制备高效液相色谱大环抗生素类手性固定相

万古霉素和替考拉宁都属于糖肽类的大环抗生素，具有立体的环状结构和多个手性中心，是两种常见的手性识别材料，广泛应用于对映体的色谱手性分离分析。该文以万古霉素和替考拉宁为手性选择剂，哌嗪为单体，4，4'-二苯基甲烷二异氰酸酯（MDI）、1，6-己二异氰酸酯（HDI）和2，4-甲苯二异氰酸酯（TDI）为交联剂，通过界面聚合反应形成网状层包裹硅胶载体的方法制得6种高效液相色谱手性固定相，用于分离外消旋化合物，并与MDI直接交联万古霉素和替考拉宁在硅胶表面所得固定相进行了比较。结果表明，利用"网包法"和直接交联法制备的手性柱与商品万古霉素和替考拉宁柱之间具有互补性，均对不同的外消旋体有不同程度的拆分。     

碳纳米管薄膜的制备及其在柔性电子器件中的应用

近年来,柔性电子器件的发展日新月异。以碳纳米管为代表的碳纳米材料,尤其是其组装成的宏观结构碳纳米管薄膜具有良好的柔性和优异的导电性,且具有化学稳定、热稳定、光学透明性等优点,在柔性电子领域展现了极大的应用潜力。本文简要综述了近年来碳纳米管薄膜在柔性电子器件领域的研究进展。首先详细介绍了碳纳米管薄膜的两类主要制备方法,分别为干法制备和湿法制备;继而介绍了碳纳米管薄膜在多种柔性电子器件的组装、性能与应用方面的最新研究进展;最后总结了碳纳米管薄膜基柔性电子领域的发展现状,并讨论了该领域所面临的挑战及其未来前景。     

1, 1'-双(二苯基膦基)二茂铁介导的芳烃碳氢键芳基化反应制备联芳基骨架

The broad existence of the biaryl linkage in bioactive organic molecules and functional materials makes it an attractive synthesis target via construction of aryl-aryl carbon bonds. Transition metal catalyzed cross-coupling reactions of two pre-functionalized aryl partners, e.g., Suzuki-Miyaura cross-coupling and Negishi cross-coupling reactions, are the main methods typically used for the construction of biaryl linkages. Since the end of the last century, transition metal catalyzed direct C―H arylation of unactivated arenes has emerged as a practical alternative to the well-established cross-coupling strategies. However, the use of transition metal catalysts and/or organometallic reagents would lead to problems, such as the disposal of waste from large-scale syntheses and the removal of heavy metal contaminants from pharmaceutical intermediates. In this regard, the base-promoted homolytic aromatic substitution (BHAS) reaction of aryl halides with unactivated arenes offers a simpler strategy for the synthesis of biaryl scaffolds, and avoids the use of transition metals. Although the BHAS reaction can proceed to a small extent without any additives, particularly at elevated temperatures, the addition of organic promoters would significantly accelerate the reaction rate and improve the overall efficiency of the process. Over the past ten years, a wide variety of N- and O-based organic promoters have been developed to promote the BHAS reaction in the presence of the tert-butoxide base. The mechanism of the BHAS reaction has been studied extensively, and is accepted as occurring via a radical chain process involving an aryl radical. However, the role and mode of initiation of most organic promoters studied remain controversial. The development of more and varied organic promoters will surely promote the mechanistic understanding and further development of the BHAS reaction. Herein, we report that 1, 1'-bis(diphenylphosphino)ferrocene (dppf, or DPPF) can act as a P-based promoter to facilitate the direct arylation of unactivated arenes with aryl iodides using potassium tert-butoxide as the base and electron donor. A broad range of aryl iodides and arenes reacted smoothly under the optimized reaction conditions, giving arylated products in good yields and with high regio-selectivity. Intramolecular C―H arylation also worked well following a sequence of single electron transfer (SET)/initiation, 5-exo-trig aryl radical addition, ring expansion, deprotonation, and re-aromatization/propagation. A mechanistic study indicated that the diphenylphosphino group of dppf played a vital role in the initiation step by enhancing the SET-inhibiting ability of the tert-butoxide anion. A primary kinetic isotope effect was observed in the parallel reactions between 4-methoxy-iodobenzene with benzene and deuterated benzene, implying that the deprotonation of the cyclohexadienyl radical intermediate by tert-butoxide was the rate-determining step in the radical chain pathway.