A New Planar Hexanuclear Dysprosium Cluster Exhibiting Slow Magnetic Relaxation Features

Reaction of the Schiff base ligand H₂L and dysprosium acetate result in a new planar Dy₆ cluster [Dy₆(μ₃‐OH)L₆(Ac)₆] · MeOH ( 1 ) [H₂L = N'‐(2‐hydroxybenzylidene)‐2‐(hydroxyimino)propanohydrazide, HAc = acetic acid], which was successfully structurally and magnetically characterized. Single‐crystal X‐ray diffraction analysis revealed that 1 contained a hexanuclear dysprosium cluster [Dy₆], which is composed of four Dy₃ triangular units. Magnetic measurements suggest that 1 displays single‐molecule magnet (SMM) behavior which is enhanced by applying a 4000 Oe direct‐current field. The effective anisotropic barrier U_eff/k_B = 14.9 K and the pre‐exponential factor τ₀ = 1.31 × 10^–6 s are also obtained. This work may provide more insights for the design and investigation of lanthanide‐based SMMs.     

数字减影血管造影引导下双侧子宫动脉栓塞术在穿透性凶险性前置胎盘中的应用

本文分析了数字减影血管造影（DSA）引导下双侧子宫动脉栓塞术在穿透性凶险性前置胎盘患者中的应用效果及对母婴结局的影响。选择2017年12月～2019年7月我院收治的穿透性凶险性前置胎盘患者45例,依据是否行子宫动脉栓塞术,将患者分为观察组（n=25例）和对照组（n=20例）。观察组行DSA引导下双侧子宫动脉栓塞术治疗,对照组行常规剖宫产手术治疗。术后7天对患者效果进行评估,比较两组手术指标、母婴结局及并发症发生率。结果显示：观察组失血量、红细胞输血量、冷沉淀输血量、住院时间,少（短）于对照组,新生儿1 min Agpar评分高于对照组,差异有统计学意义（P<0.05）。观察组新生儿肺炎、新生儿呼吸窘迫综合征、新生儿窒息及新生儿高胆红素血症发生率均低于对照组,差异有统计学意义（P<0.05）。观察组子宫切除、产后出血、失血性休克和DIC发生率均低于对照组,差异有统计学意义（P<0.05）。表明DSA引导下双侧子宫动脉栓塞术治疗穿透性凶险性前置胎盘的效果确切,可明显减少患者术中出血量及术后并发症,降低手术风险,改善临床结局,且微创、安全,值得临床推广应用。     

一种超支化阳离子聚合物的制备及其防膨性能

以顺丁烯二酸酐及二乙醇胺为原料，采用“一步熔融法”合成了端羟基超支化聚酯酰胺（HBP-OH）；以环氧氯丙烷改性HBP-OH制得端基为氯甲基的超支化聚酯酰胺（HBP-ECH）；以三乙胺改性HBP-ECH制得端基为季铵基的超支化聚酯酰胺（HBP-L），其结构经IR表征。研究了HBP-L的静态防膨率、耐水洗能力及对岩心的渗透伤害率。结果表明：HBP-L加量为1 wt%时，粘土防膨率为90.36%；经10次水洗后，其防膨率仍超过85%；模拟地层温度为45 ℃时，HBP-L对岩心的渗透伤害率仅3.86%。采用XRD和Zeta电位法分析了HBP-L对粘土水化膨胀及运移分散的抑制机理。结果表明：经1 wt%HBP-L处理的粘土，其晶层间距为6.91 nm，较去离子水处理层间距（4.71 nm）小；粘土表面的zeta电位由-39.2 mV升高至-19.6 mV。     

新型川芎嗪衍生物的合成

以川芎嗪为原料，经氧化、Boekelheide重排、水解和氧化反应合成了中间体3,5,6-三甲基吡嗪-2-甲醛（4）; 4与取代N-4-哌啶酮发生缩合反应合成了9个新型的川芎嗪衍生物，其结构经¹H NMR, ¹³C NMR和MS（ESI）表征。     

Advantageous Interfacial Effects of AgPd/g-C3N4 for Photocatalytic Hydrogen Evolution: Electronic Structure and H2O Dissociation

Bimetallic AgPd nanoparticles have been synthesized before, but the interfacial electronic effects of AgPd on the photocatalytic performance have been investigated less. In this work, the results of hydrogen evolution suggest that the bimetallic AgPd/g-C₃N₄ sample has superior activity to Ag/g-C₃N₄ and Pd/g-C₃N₄ photocatalysts. The UV/Vis diffuse reflectance spectroscopy, X-ray photoelectron spectroscopy, CO adsorption diffuse reflectance FTIR spectroscopy, and FTIR results demonstrate that in the AgPd/g-C₃N₄, the surface electronic structures of Pd and Ag are changed, which is beneficial for faster photogenerated electron transfer and greater H₂O molecule adsorption. In situ ESR spectra suggest that, under visible light irradiation, there is more H₂O dissociation to radical species on the AgPd/g-C₃N₄ photocatalyst. Furthermore, DFT calculations confirm the interfacial electronic effects of AgPd/g-C₃N₄, that is, Pd^δ−⋅⋅⋅Ag^δ+, and the activation energy of H₂O molecule dissociation on AgPd/g-C₃N₄ is the lowest, which is the main contributor to the enhanced photocatalytic H₂ evolution.     

Transient and Recyclable Halogenation Coupling (TRHC) for Isoflavonoid Synthesis with Site-Selective Arylation

A transient and recyclable C−H iodination has been designed for the synthesis of isoflavonoids through the domino reactions of o-hydroxyphenyl enaminones and aryl boronic acids in the presence of catalytic KI and Pd catalyst. Instead of the conventional cross-coupling strategy employing pre-halogenated substrates, this method transforms raw C−H bond by means of a transient C−H halogenation to smoothly relay the subsequent C-arylation. Consequently, such a method avoids the pre-functionalization for C−halogen bond installation as well as the generation of stoichiometric halogen-containing waste following the cross-coupled product, disclosing an intriguing new coupling protocol to forge the C−C bond in the virgin area between classical C−X (X=halogen) bond cross coupling and the C−H activation.     

二(2-乙基己基)二硫代次膦酸对硝酸溶液中Am3+和Eu3+的萃取

以正十二烷作稀释剂, 研究了二(2-乙基己基)二硫代次膦酸(D2EHDTPA)对HNO₃溶液中Am³⁺和Eu³⁺的萃取行为. 考察了酸度、 萃取剂及N{\mathrm{O}}_3^{-}浓度和皂化度对萃取的影响. 在考察的pH范围(2.5~4.5)内, D2EHDTPA萃取Am³⁺和Eu³⁺的分配比(D)随pH值增大而增加; pH=3.65时, 分离因子(SF_Am/Eu)值达到最大(4000). 随D2EHDTPA浓度的增加, D_Am和D_Eu值均增加. 斜率分析表明, D2EHDTPA萃取Am³⁺和Eu³⁺主要形成3:1和2:1型的萃合物. N{\mathrm{O}}_3^{-}未直接参与D2EHDTPA对Am³⁺和Eu³⁺的萃取反应. D2EHDTPA经NaOH皂化后, 萃取能力显著增强, SF_Am/Eu值提高到10⁴量级, 萃取容量约为理论值的60%. 此外, 使用高分辨质谱、 红外光谱和等温微量热滴定方法研究了D2EHDTPA与Eu³⁺的配位化学行为, 得到了金属离子与配体的组成比、 络合物稳定常数以及配位热力学参数ΔH, ΔS和ΔG值.     

温度对碳球形貌及超级电容性能的影响

以三氯乙烷和二氯乙烷为原料, 金属钠为还原剂, 在溶剂热条件(100~150 ℃)下使氯代乙烷中的碳氯键和碳氢键发生断裂制备了碳纳米球, 并对制备的碳纳米球进行了表征. X射线衍射结果表明, 样品为类石墨结构, 衍射信号宽且弱, 表明样品的结晶性较差; 拉曼光谱分析结果也表明样品具有较高的无序度. 样品的SEM与TEM分析结果表明, 在较高的反应温度下, 碳球具有更好的单分散性, 碳球的粒径随温度的升高而增大; 选区电子衍射结果表明碳球内部为无定形的类石墨结构. 以碳纳米球为负极材料的锂离子电池测试结果表明, 50周循环后比容量为941 mA·h/g, 库仑效率接近100%, 放电容量保持率为103.7%, 具有良好的循环稳定性. 测试了不同温度下制备样品的超级电容器性能, 发现120 ℃下制备的碳纳米球具有较高的比电容和较低的内阻值, 比电容高达130 F/g, 经过1000周循环充放电后比电容衰减比例低于14%, 具有较高的稳定性.     

基于P2 Mo18O6-62@Tb3+溶液可逆变色-荧光开关性质对维生素C和H2O2的光谱检测

基于变色多酸P₂Mo₁₈{\mathrm{O}}_{62}^{6-}与绿光Tb³⁺之间的功能互补及分子间能量转移的原理, 在维生素C(VC)的还原下, P₂Mo₁₈{\mathrm{O}}_{62}^{6-}@Tb³⁺溶液由浅黄色变为蓝色, 发生荧光猝灭; 相反, 在H₂O₂氧化下, 溶液的蓝色褪去, 荧光得以恢复, P₂Mo₁₈{\mathrm{O}}_{62}^{6-}@Tb³⁺溶液呈现出可逆的化学响应变色及荧光开关性质. 利用紫外-可见(UV-Vis)及荧光(PL)光谱法对VC浓度进行定量检测, 分别以800 nm处的吸光度和 547 nm处荧光强度的对数值对VC浓度作图, 获得光谱法对VC检测的线性方程, 检出限分别为3.40×10^-3和0.21 μmol/L; 利用UV-Vis及PL动力学方法对VC和H₂O₂检测的响应速度进行了考察, 响应时间分别为52和320 s; 通过UV-Vis光谱及动力学方法考察了VC检测的选择性及可重复使用性.