外电场下交联聚乙烯电介质材料分子结构变化及其电老化微观机理研究

为了从微观角度分析交联聚乙烯(XLPE)材料的电树枝老化,本文采用分子模拟方法计算并优化得到了XLPE分子结构.沿着聚乙烯链施加不同大小电场强度,分析交联聚乙烯分子的几何结构、偶极矩、极化率、电荷分布、前线轨道能量和红外光谱变化规律.计算结果表明,随着外电场的增大,交联聚乙烯分子红外光谱发生较大变化;当外施电场达到0.026a.u.后,红外光谱图中出现虚频,表明分子空间结构不再稳定,易发生断键;另外从前线轨道图的变化可以看出断键现象最先发生在交联聚乙烯链端部;沿着电场方向,原子所带电荷量由交联处向端部转移,当外施电场达到0.029a.u.后,链端部的C-H和C-C键断裂产生H·和CH_3·自由基.游离的自由基会形成空间电荷并发生积聚,产生局部较大场强,从而进一步影响交联聚乙烯链的空间结构.而电介质内部微观特性的变化必定会导致交联聚乙烯材料绝缘性能的下降,这些变化对揭示交联聚乙烯电缆电树枝形成的微观规律具有重要研究意义.     

光诱导的二芳基烯丙醇氰甲基化合成δ-酮腈的反应研究

以二芳基烯丙醇与溴乙腈为原料,开发了一种可见光诱导的合成δ-酮腈的方法.控制实验的结果表明,该反应可能是通过自由基机理进行的,溴乙腈作为氰甲基自由基源参与到反应中.     

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.     

光催化氧化还原体系中硝酮与芳香叔胺的自由基偶联反应

通过氮α-位碳自由基构造氮α-位碳-碳键是合成含氮有机化合物的重要方法. 近期, 利用可见光催化氧化芳香叔胺—氮α-位去质子化形成氮α-位碳自由基的原理发展了一系列新颖的自由基加成(偶联)反应, 成为氮α-位碳自由基化学发展的重要方向. 本文应用Ir-催化剂, 实现了光催化氧化还原体系中硝酮与芳香叔胺的自由基偶联反应, 高效地合成β-氨基羟胺化合物. 该反应条件温和、操作简单, 具有较高的原子经济性, 且对于各种链状、环状以及手性硝酮都具有良好的适用性, 产物可方便地转化为重要的邻二胺化合物.     

可见光驱使铜盐催化芳香烃二氟烷基化反应

以CuI为铜源, 通过原位形成光催化剂的途径, 实现了室温下可见光驱使铜催化溴二氟乙酸乙酯、溴二氟酰胺等对芳烃及杂芳烃的二氟烷基化反应. 该反应条件温和、原料廉价易得、底物适用范围广、产率较高, 为合成二氟烷基(杂)芳烃化合物提供了一种方法. 机理研究表明, 该反应可能经历了单电子转移的自由基反应历程.     

水液相环境下羟自由基诱导的苯丙氨酸分子损伤机理

在MP2/ SMD/6-311++g(3df, 2pd)//WB97X-D/SMD/6-311++G(d, p)理论水平上，研究了水液相环境下羟自由基诱导的苯丙氨酸分子的损伤机理。研究发现,羟自由基（水分子簇）抽取α-氢、β-氢、苯环-氢以及羟自由基与苯环加成均可致苯丙氨酸分子损伤。势能面计算表明,羟自由基（水分子簇）抽取α-氢和β-氢的最低能垒分别为68.4和89.3 kJ·mol^-1，羟自由基抽取苯环-氢的最低能垒为111.6 kJ·mol^-1，羟自由基加成到苯环不同位点碳的能垒大约在106.5~110.2 kJ·mol^-1，羟自由基（水分子簇）抽α-氢和β-氢是显著的放热反应。结果表明，羟自由基（水分子簇）抽取α-氢是苯丙氨酸分子损伤的主要途径。     

新型Cd-苯并噻二唑类的金属有机骨架中的光诱导脱羧反应

基于相同配体2,1,3-苯并噻二唑-4,7-二羧酸(H2BTDC),通过不同的溶剂热反应,合成了两个新的3D结构的金属有机框架配合物1[Cd_4(BTDC)_4·5H_2O]和2[Cd_2(BTDC)_2(DMF)·1.5H_2O]。在配合物1的结构中存在两个相邻发色团(BTD单元)为反式平行的排列方式,距离为3.987,小于反式二聚物的理论计算值(4 ?)。在相关的紫外可见吸收光谱中观察到,配合物1在470nm处吸收带的能量低于单个BTD单元典型吸收带的能量。这些证据揭示了在配合物1的结构中存在反式苯并噻二唑二聚体。通过研究光照前后配合物1和2的稳态光谱及电子顺磁共振(EPR)光谱发现,这两个配合物中存在光诱导电子转移引起的光致变色效应,并产生了相应的阴离子自由基。相关的FT-IR光谱表明,由于这一自由基的产生,配合物1和2进一步发生了配体单元的脱羧反应,释放出二氧化碳气体(2331cm~(-1)、2361cm~(-1))。     

CoFe2O4/CuO活化过氧乙酸高效降解磺胺甲恶唑(英文)

利用化学沉淀法和溶胶凝胶法,通过两步法成功制备出含有尖晶石钴铁氧体和氧化铜的复合催化剂CoFe₂O₄/CuO,通过扫描电子显微镜(SEM)、X射线光电子能谱(XPS)和X射线衍射(XRD)对制备出的CoFe₂O₄/CuO进行表征,探究不同高级氧化体系对磺胺甲恶唑(SMX)去除能力,考察过氧乙酸(PAA)浓度、催化剂投加量、水体中常见干扰物质(Cl^-,HCO-3,SO₄^2-,HA)和不同自由基捕获剂对SMX去除的影响。分析结果表明CoFe₂O₄/CuO同时具有CoFe₂O₄与CuO的特征,对比单独CoFe₂O₄与CuO,CoFe₂O₄/CuO对PAA展现出极高的活化性能,在最佳反应条件下(催化剂投加量=20mg·L^-1,c(PAA)=200μ...     

响应面法优化小球藻抗氧化肽的制备工艺研究

以小球藻藻种为原料,通过实验室培育得到藻粉,再通过碱性蛋白酶制备小球藻抗氧化肽,以DPPH自由基清除率为指标,通过单因素和响应面设计探究加酶量、pH、酶解时间和反应温度对抗氧化肽的抗氧化性的影响,通过超滤离心对多肽进行分离,测定了各组分的DPPH自由基清除率,再通过氨基酸分析仪和凝胶渗透色谱仪测定了DPPH自由基清除率最好的多肽组分的氨基酸组成和分子量,又测定了它的热稳定性和贮藏稳定性。结果表明：小球藻蛋白制备抗氧化肽的最佳条件为：pH为7,反应温度为40℃,反应时间为30 min,加酶量为4 000 U·g^-1,此时DPPH自由基的清除率是58.03%。超滤分离得到五个组分,其中分子质量为5 KD-10 KD的DPPH自由基清除率最佳,多肽中的抗氧化氨基酸含量为49.9%,它的相对分子量为474,抗氧化肽有着良好的热稳定性以及贮藏稳定性。