双氮桥联1,10-菲咯啉大环化合物分子构型的从头算研究

应用规范不变原子轨道法(GIAO)在RHF/6-31G**和B3LYP/6-31G**水平上计算了质子化双氮桥联1,10-菲咯啉大环化合物(H4HAPP2+)C2h和C2h构型的1HNMR,并用TDDFT法计算了H4HAPP2+电子光谱.结果表明,B3LYP/6-31G*优化的C2h构型为较优构型,经谐振频率验证无虚频,C2h构型是H4HAPP2+合理的对称性构型.     

用HNMR法测量过渡元素离子的磁矩

磁化率和磁矩的数据对于配合物化学键型的研究和空间构型的分析有重要作用. 磁化率的测量方法有多种,其中以古埃法和据其原理而改进的永磁天平法较为常见.此法的缺点是实验步骤繁琐、样品用量大、精度欠佳.近来有人相继提出用激光摆法和NMR双谱仪法等新方法来进行测量,所得结果数据很好.本文介绍根据D.F.Evens所创立的方法,利用~1HNMR波谱来测量过渡元素离子化合物的磁化率和磁矩.     

CATIONIC CONDUCTIVITY FOR THE CROSSLINKED P [OLIGO (OXYETHYLENE) METHACRYLATE-COoMETHACRYLOYL ALKYLSULFONIC ACID LITHIUM]

Crosslinked copolymers with single Li~+-ionic conductivity were prepared from oligo (oxyethylene) methacrylate (MEO_n), methacryloyl alkylsulfonic acid lithium (SAMLi), and oligo (oxyethylene) dimethacrylate (DMEO_n). Li~+-ionic conductivity of the copolymer is improved by crosslinking and presented as a function of polymerization degree (n) in MEO_n, comonomeric salt concentration (O/Li), and crosslinking degree. The crosslinked copolymer P (0.7 MEO_(14)-0.3DMEO_(14)-SHMLi) without other small molecular additives exhibits an optimum Li~+-ionic conductivity of 1.2×10~(-6) S/cm at 25℃. Dc polarization test in the cell composed of Li/copolymer/Li shows a constant dc ionic conductivity which closes gradually to the ac one with decreasing dc polarization potential.     

新型含二茂铁有机配合物的合成及其电化学性质

以二茂铁为起始原料,经氯汞化反应、溴代反应、Suzuki偶联反应、水解反应和取代反应等5步反应合成了一种新型的含二茂铁结构单元的有机配合物(7),其结构经1H NMR、13C NMR、IR和HR-MS(ESI-TOF)表征。电化学研究结果表明:化合物6的E1/2小于化合物7,具有较高的氧化还原活性。     

STUDIES ON ENHANCED CONDUCTIVITY OF STRETCHED CONDUCTING POLYMERS

A physical model of series of the conductivity on chain and the interchain conductivitybetween chains is proposed to explain enhanced conductivity of stretched conducting polymers.This model suggests that the enhanced conductivity for stretched conducting polymers might bedue to increasing of the interchain conductivity between chains along the elongation direction afterdrawing processes if the conductivity on chain is assumed much larger than that of the interchainconductivity between chains. According to this model, it is expected that the temperaturedependence of conductivity measured by four-probe method for stretched conducting polymers iscontrolled by a variation of the interchain conductivity between chains with temperature, whichcan be used to explain that a metallic temperature dependence of conductivity for stretchedconducting polymers is not observed although the conductivity along the elongation direction isenhanced by two or three orders of magnitude.     

新课程下高中物理课堂合作学习的优化策略

随着物理新课程改革的推进,合作学习在课堂教学中得到了广泛的推广与实施,但是仍存在流于形式,分组不科学,责任不明确,评价不全面等方面的问题.针对以上问题,需要在课堂合作学习的不同阶段从合作学习理念、合作学习目标、合作分组、教学方法及评价机制等方面进行优化.     

基于不等占空比二元光栅的相位测量轮廓术

提出了一种基于不等占空比二元光栅的相位测量轮廓术(PMP)。所用的光栅只有0和255两个灰度,消除了投影仪的伽玛非线性对正弦光栅灰度的影响,同时可将投影系统的刷新频率提高一个数量级。所提方法的测量精度高于罗奇光栅离焦投影傅里叶变换轮廓术的,重复精度高于传统正弦光栅PMP。     

MgF2对Mn4+掺杂锗酸盐红色荧光粉发光的影响

3.5MgO·0.5MgF₂·GeO₂∶Mn⁴⁺作为优异热稳定性和良好发光性能的红色荧光粉而被市场应用,然而,该粉体中MgF₂的作用影响机理尚不明晰,阻碍其性能进一步优化和发展。采用高温固相法制备了系列Mn⁴⁺激活的锗酸盐荧光粉,通过对比加入MgF₂、H₃BO₃(助熔剂),研究了该粉体的结构、形貌、发光性能等变化规律,阐明了MgF₂的发光影响作用。研究表明,加入MgF₂、H₃BO₃和不加任何助熔剂时的样品,其最佳烧结温度分别为1 150、1 250和1 350 ℃,上述温度下发光强度均为最佳值,其中加入MgF₂、H₃BO₃的样品在最佳温度处生成了纯相。MgF₂的添加,一方面同H₃BO₃一样作为助熔剂对生成纯相、提高样品结晶度起了积极的作用;另一方面,通过研究分析,确认F^-离子成功掺杂进入晶格,促使样品生成的晶体结构为Mg₁₄Ge₅(O,F)₂₄。加入MgF₂、H₃BO₃在最佳烧结温度的样品的荧光寿命分别为0.93和0.75 ms。     

电喷雾质谱在金属配合物研究中的应用

综述了电喷雾质谱(ESI-MS)在金属配合物分析中的应用,详细介绍了电喷雾质谱在测定金属配合物的分子量、表征金属配合物的结构、分析金属离子与配体的相互作用及相关机理等方面的研究进展.