PSF/TiO2杂化超滤膜形成过程的热力学和动力学研究

采用溶胶-凝胶法制备了不同纳米TiO₂含量的聚砜(PSF)/TiO₂杂化超滤膜, 研究了TiO₂浓度对聚砜铸膜液流变学及热力学性质的影响, 构建了计算成膜过程中表观扩散系数(D_a)的新方法, 求出不同TiO₂浓度及温度下的D_a值, 进而剖析了铸膜液流变学和热力学性质的变化对成膜动力学的影响. 并通过扫描电镜观察、杂化膜孔隙率和超滤性能的测试考察了表观扩散系数与膜结构和性能的关系. 结果表明, 加入TiO₂溶胶的PSF铸膜液由牛顿流体转变为非牛顿流体, 其粘度随TiO₂浓度增大而增大. TiO₂的加入减小了铸膜液对非溶剂的容纳能力, 加速铸膜液的液-液相分离, 同时TiO₂引起的热力学促进作用和流变学阻碍作用相互竞争, 共同影响D_a的变化. 实验得出, D_a随温度升高而增大, 随TiO₂浓度的增大有先增大后减小的趋势. 表观扩散系数D_a与膜的结构和性能具有很好的相关性并能直观地描述整个成膜过程.     

硝酸镧与冠醚(2, 2)配合物的晶体及电子结构研究

用X-射线单晶衍射法测定了硝酸镧与冠醚(2,2)配合物的晶体结构,发现其具有与报道的Eu(NO_3)_3(2,2)配合物不同的配位方式.晶体属于三斜晶系,空间群P(?),晶胞参数为a=10.312(2)(?);b=12.745(3)(?);c=8.917(2)(?);α=103.79(2)°;β=112.73(2)°;γ=83.68(2)°;V=1049.5(5)(?)~3;F(000)=587.88;Z=2.结构用重原子法解出;R值为0.0292.用INDO法计算了配合物的净电荷分布,电子结构、键级.结果表明,镧与配位原子间的键具有一定程度的共价性.镧的5d轨道对共价性的贡献最大,而4f轨道基本上不参与成键.La-N比La-O(醚)间存在较强的作用,增大了配合物的稳定性.     

硒化合物对不饱和脂肪酸过氧自由基的作用

本文用电子自旋共振谱技术研究了硒代二乙酸和硒代二丙酸对不饱和脂肪酸过氧自由基的作用。结果表明,硒化合物清除不饱和度为2和2以上的脂肪酸的过氧自由基,但促进仅含一个双键的不饱和脂肪酸的过氧自由基的生成。     

Schiff碱型羧酸开链冠醚和Cu(Ⅱ)配合物配位结构的研究

通过对Schiff碱型羧酸开链冠醚与Cu（Ⅱ）所形成的配合物之组成、最大吸收波长（λmax），差工线以及配合物的红外光谱的测定，获得了这些配合物的配位结构信息。     

1，3—偶极环加成合成新型含2—苯基—1，2，3—三唑基—1，5—苯并硫氮杂卓恶二唑并合衍生物

α，β-不饱和酮（1a-1e)与邻氨基苯硫酚反应，得到含2－苯基－1，2，3－三唑基1，5－苯并硫氮杂卓（2a-2e),然后以此化合物为原料同1，3－偶极子氧化腈“现场”发生1，3－偶极环加成，合成出一系列含2－苯基－1，2，3－三唑基的1，2，4－恶二唑并合的1，5－苯并硫氮杂卓衍生物（3a-3j)。产物经元素分析、IR、^1H NMR及MS加以确证。     

N-支套索冠醚在不对称合成中的应用

综述了手性N-支套索冠醚在不对称合成中的作用，特别着重介绍了其作为相转移催化剂在Michael加成和Darzens缩合反应中的应用。     

铁系元素冠醚配合物的研究——Ⅱ. 铁系氯化物与4''-碘苯并-15-冠-5固态配合物的合成与性质

对碱金属、希土与苯并-15-冠-5冠醚配合物的研究指出,4′-取代单苯并冠醚的阳离子配合物的稳定性及其他性质,受取代基电子效应的影响,给电性取代基可增加芳醚氧原子上的电子密度,改变冠氧的极性,从而影响其配位能力,扩大希土配合物之间性质上的差别,达到分离的目的。对于铁系元素,文献报导甚少。我们继Ⅰ之后,又合成了三氯化铁水合物与4′-碘苯并-15-冠-5固态配合物,并研究了其性质。     

碳点增强的Ru纳米颗粒复合材料用于碱性条件下高效电解水析氢

In the 21st century, hydrogen energy is a novel energy source. Its use is expected to mitigate the problems of environmental pollution and global warming caused by the excessive use of conventional fossil fuels. The hydrogen evolution reaction (HER) for water splitting has attracted considerable attention because of its environmental friendliness. To improve electrocatalyst performance and reduce operation cost, carbon-based metal hybrid materials exhibiting high efficiency and catalytic activity have been developed. Among them, carbon dots (CDs) have garnered significant research attention and have been widely applied in biosensing, bioimaging, and energy conversion/storage because of their facile synthesis, biocompatibility, tunable photoluminescence, excellent stability, and good electronic properties. CDs are widely used as carriers in the construction of electrocatalysts prepared from carbon-based metal hybrid materials. At present, it is believed that CDs exhibit excellent confinement effects, which can effectively inhibit the growth and agglomeration of metal nanoparticles, thereby preparing well-distributed carbon-based metal hybrid materials with a uniform and controllable size. However, the formation process of the small-molecule raw materials of CDs has not been elucidated. In this study, CDs and small-molecule raw materials from synthetic CDs were used as precursors to prepare nitrogen-doped CD-supported ruthenium nanoparticle (Ru@CDs) and small-molecule-supported ruthenium nanoparticle (Ru@Molecule) hybrid materials, respectively. The interaction between the small molecules and Ru in the process of CD formation and the effect on HER performance were explored. Moreover, we prepared different carriers such as metal organic frameworks(MOF), carbon nanotubes (CNTs), and graphene (GO)-supported ruthenium nanoparticle hybrid materials. Among them, Ru@CDs exhibited controllable size and excellent dispersibility and exhibited outstanding HER activity and good stability. Ru@CDs were found to require a low overpotential of 22 mV to reach a current density of 10 mA·cm⁻². Moreover, we observed the presence of an intermediate state between the molecules and CDs and demonstrated that the intermediate state exhibits no confinement effect. Furthermore, we found that with increasing calcination temperature, the intermediate state gradually changes to CDs. The unique spatial confinement between CDs and metal ions is key to the formation of monodisperse Ru nanoparticles. Our results confirmed that Ru@CDs serve as excellent HER catalyst supports. This work not only reveals the effect of the unique spatial confinement of CDs on the supported metals and their promoting effect on electrocatalytic activity but also provides guides the future development of CD-based metal hybrid electrocatalysts.     

杂原子Y分子筛的二次合成及其吸附脱硫性能

采用液-固相同晶取代反应制备了骨架含Ga的Y型分子筛, 并对其吸附脱硫性能进行了研究. 在室温, 空速为7 h−1的条件下, 镓化Y型分子筛([Ga]AlY)处理噻吩、四氢噻吩、4,6-二甲基二苯并噻吩(4,6-DMDBT)正壬烷溶液(硫含量500 μg•g−1), 每克吸附剂吸附硫的量分别为7.7、17.4、14.5 mg. 采用密度泛函理论(DFT)中的广义梯度近似方法(GGA)计算各分子中硫原子上的电荷数, 噻吩中硫原子的电荷数为−0.159, 而4,6-DMDBT和四氢噻吩分别为−0.214、0.298. 四氢噻吩和4, 6-DMDBT中硫原子上的电子密度大于噻吩中硫原子上的电子密度, 这就使得四氢噻吩和4,6-DMDBT中的硫原子与吸附位间的作用会远大于噻吩中的硫原子与吸附位间的作用, 吸附容量必然会大很多. 采用[Ga]AlY处理抚顺石油二厂的催化裂化汽油(硫含量：299 μg•g−1), 每克吸附剂处理2.1 mL汽油时, 处理后汽油的硫含量为54.8 μg•g−1, 说明[Ga]AlY对汽油脱硫有一定的效果.     

过渡金属与二取代冠醚固态配合物的制备

由４＇，５＇－二碘苯并１５冠５，４＇，５＇－二溴苯并１５冠５，４＇－溴－５＇－硝基苯并１５冠５，四溴二苯并１８冠６与过渡全属Ｍｎ（Ⅱ）、Ｃｏ（Ⅱ）、Ｃｕ（Ⅱ）、Ｚｎ（Ⅱ）、Ａｇ（Ⅱ）、Ｃｄ（Ⅱ）的硝酸盐、高氯酸盐、气化物合成了１９个未见报道的固态配合物。用元素分析、红外光谱、摩尔电导和差热－热重分析等表征了它们的组成和性质。