手性3-溴-2(5H)-呋喃酮的合成及其串联的不对称Michael加成 反应的研究

研究了新的手性试剂,5-(l-孟氧基)-3-溴-呋喃酮(5a)的合成及其与亲核性醇发生的串联不对称双Michael加成/分子内亲取代反应。通过此反应,一举生成了四个新的手性中心,得到了一般方法难以合成的含有多个手性中心的丁内酯并螺－环丙烷类化合物8a～8d。详细报道了8a～8d的合成方法以及它们的[α]、IR、UV、^1^HNMR、^13^CNMR、MS、元素分析等结构分析数据。此不对称双Michael加成/分子内亲核取代反应可以为某些新的光学活性螺－环内丙烷类化合物以及某些复杂结构的分子提供合成策略。     

稀土-碱土-过渡金属类钙钛石(A2BO4)复合氧化物催化剂的固态物化性质及对Nox 消除反应的催化性能

用柠檬酸络合法制备了多个系列的类钙钛石(A2BO4)结构的复合氧化物催化剂, 系统地研究探讨了该类催化剂的晶体与光谱结构、缺陷结构、对NO和CO等小分子的吸附性能、对氧的吸脱性能及氧化还原性能和稳定性, 同时考察了上述多个系列催化剂对NO直接分解和CO还原NO反应的催化性能. 发现Ni系A2BO4复合氧化物是NO直接分解的高活性催化体系, 特别是LaSrNiO4-λ催化剂具有很高NO的分解活性, 其活性高于文献报道Y-Ba-CuO/MgO的和Co系ABO3催化剂. 同时发现LaSrCuO4-λ具有较高的CO还原NO催化性能. 提出了在类钙钛石复合氧化物催化剂上NO分解和还原反应统一的氧化还原反应机制, 并比较了两个反应的异同点, 确认了氧空位在上述反应中的作用. 并较深入的探讨了取代效应、过渡元素、稀土元素和结构效应对NO分解和CO还原NO反应的影响机制. 本文分析总结了作者在类钙钛石(K2NiF4)结构复合氧化物的固态物化性质及对 Nox消除反应的催化性能方面的基础性研究结果.     

取代基效应与乙烯-α-烯烃共聚物的序列结构——5.乙烯-乙烯醇共聚物

本文应用取代基效应(SCS)方法研究了乙烯-乙烯醇(EVA)共聚物,得到了羟基(-OH)在两种不同溶剂中的SCS参数:在苯酚+重水(80/20W/W)中参数为S_1=42.77±0.08ppm,S_2=7.155±0.06ppm,S_3(s)=-4.08±0.02ppm,S_3(t)=-3.09±0.02ppm,S_4=0.48±0.03ppm,S_5=0.26±0.05ppm,在以邻二氯苯为溶剂时参数为S_1=44.97±0.61ppm,S_2=7.40±0.00ppm,S_3(s)=-4.51±0.17ppm,S_3(t)=-3.13±0.00ppm,S_4=0.63±0.04ppm,S_5=0.36±0.00ppm,同时利用所得到的SCS参数对该共聚物的~(13)C NMR谱进行了归属。     

诺卜醇衍生物的合成及其13C化学位移分析

诺卜基醚;诺卜基酯;诺卜醇衍生物的合成及其13C化学位移分析     

固态电解质中锂离子传输机理研究进展

Inorganic crystalline solid electrolytes exhibit excep tional room-temperature ionic conductivities, giving them the potential to enable all-solid-state lithium (Li) - ion batteries. Developing new high-performance electrolytes is one of the most critical challenges to realize solid-state batteries, which requires understanding how chemistry facilitates fast ionic conduction and what the Li-ion migration mechanism is in in organic solid electrolytes. In this review, we aim to summarize recent fundamental research progress in Li-ion transport, including crystal structure, behavior of ion migration (i.e., single-ion jump and multi-ions cooperative migration), and the relationship between ion migration and microstructure. Generally, ion transport in crystalline structure can be categorized into vacancy and non-vacancy mechanism. For Li-ion conduction, the migration can be achieved through single-ion hopping and collective diffusion mechanism. For single-ion hopping mechanism, the diffusivity is determined by the depth of potential well (activation energy) and lattice dynamics;whereas in the later mechanism Li-ion moving from high potential to low potential could partially offset the energy required for Li-ion moving from low potential to high potential. By studying the collective diffusion from the perspective of local structures, it is believed that collective diffusion in fast ion conductor originates from the local 野dual Li-S/O冶 structure units, which can be characterized by the 野nearest Li-Li distance冶. Next, the paradigm of ion transport in solids is summarized. It is pointed out that most ion conductors follow Meyer-Neldel rule, where the activation energy and pre-exponential factor are mutual compensating. As a result, a balance should be adapted between these two values to achieve high Li-ion conductivity. However, for some fast ion conductors, the relationship does not follow the Meyer-Neldel rule (i.e., anti-Meyer-Neldel rule). Therefore, the physical significance of anti-Meyer-Neldel rule should be understood to develop next-generation lithium ion conductors. In the end, future perspectives and open questions are proposed to design and develop high-performance inorganic solid electrolytes. © 2021 Chinese Chemical Society. All rights reserved.     

锂二次电池中的原位聚合电解质

聚合物电解质主要分为凝胶聚合物电解质和固态聚合物电解质两种类型,均能够提升锂二次电池的性能.其中,凝胶聚合物电解质是利用增塑剂实现聚合物基质的凝胶化,将有机液态电解液固定在三维网络结构中,因此同时具备液态的离子扩散速率和固态材料的机械性能;而固态聚合物电解质是一种完全没有液态电解质的体系,利用聚合物基体的极性实现锂盐的...     

层状和MSU结构的介孔纳米二氧化锆

在不添加任何结构稳定剂的条件下, 首次用固态反应结构导向法成功地合成了具有层状结构和MSU结构的介孔纳米二氧化锆. 研究发现, 通过有效地控制晶化条件, 二氧化锆的晶相、比表面和孔结构可以方便地得以调变. 晶相的转变由粒度大小控制, 并且构成无机骨架的相态不同, 合成样品的热稳定性存在差异. 结果显示, 介孔纳米二氧化锆的形成仍遵循超分子液晶模板机制, 且由碱锆摩尔比的大小控制介观相的转化, 低碱锆摩尔比条件下形成层状相, 而高碱锆摩尔比条件下为维持整个体系的低能稳定状态, 在电荷作用下形成反棒状胶束结构.     

烷氧基取代金属酞菁固态薄膜光谱及结构的研究

本文选用一种烷氧基取代的金属酞菁化合物,溶解旋涂于玻璃基板上,分别经有机溶剂处理和加热处理,发现都可以使吸收光谱范围向长波方向拓宽。X-射线衍射研究表明:经上述方法处理后都可使染料分子的聚集程度发生变化,堆砌方式由微晶型向晶型结构转变,高分辩率扫描电镜观察进一步证实了上述结果。     

Chemoselective Dehydrogenation of 3-[2-（3,4-Dihydro-1-naphthalenyl）ethyl]imidazolidine-2,4-diones： a New and Convenient Synthesis of 13,16-Diazaequilenin analogs

The synthesis of the title compounds starting with the chemoselective dehydrogenation of 3-[2-(3,4-dihydro-1-naphthalenyl)ethyl]imidazolidine-2,4-diones has been described.