新显色剂2-(2-咪唑偶氮)-5-二甲氨基苯甲酸与镍(Ⅱ)的显色反应研究

研究了新显色剂2-(2-咪唑偶氮)-5-二甲氨基苯甲酸(IZDBA)与Ni(Ⅱ)的显色反应。结果表明,在pH 6.0的HAc-NaAc缓冲溶液中,IZDBA可与Ni(Ⅱ)形成一种配合比为2∶1的稳定红色配合物,其最大吸收波长位于580 nm处,而试剂的最大吸收波长为390nm,对比度为190 nm。配合物的表观摩尔吸光系数为2.95×104L.mol-1.cm-1;Ni(Ⅱ)量在0~0.8 mg/L范围内遵守比耳定律。在硫脲和氟化铵存在下,方法可直接用于测定镍催化剂和铸造铝合金中的微量镍。本法与原子吸收光谱法相对照,结果基本一致。     

混配配合物[Co(cpida)(C7H5N2)2]·C7H5N2·5H2O

在溶液中用N-(邻苯甲酸基)-亚氨基二乙酸、苯并咪唑和Co(Ac)2·4H2O进行自组装合成了标题三元金属混配配合物.用元素分析、红外光谱、单晶衍射对配合物的组成和结构进行了表征,确定配体N-(邻苯甲酸基)-亚氨基二乙酸中的3个羧基为单齿形式与中心金属钴离子配位.     

二(2-乙基己基)磷酸稀土配合物的红外和拉曼光谱

用稀土氯化物与二(2-乙基己基)磷酸反应制备了14种标题配合物,测定了配合物的红外和拉曼光谱,对其主要红外和拉曼谱带进行了归属.结果表明,Ln(DEHP)3应具有与Sm(DMP)3和Pr(DMP)3相同的配位形式和结构类型,每个稀土离子通过双O-P-O桥与邻近的三个稀土离子相连接,形成"双桥二十四元环"的多聚网络结构.Ln-O键基本上是离子键.     

碱性模式氢化物发生原子荧光光谱法测定铁矿石中砷

建立了碱性模式氢化物发生原子荧光光谱法测定铁矿石中砷的最佳仪器和实验条件。采用微波消解分解样品,在硫脲和L-半胱氨酸存在下将As（Ⅴ）还原为As（Ⅲ）,以1mol／L KOH作为介质,以0．75mol／L H3PO4作为载流,原子荧光光谱法测定样品中的砷。方法检出限为0．35μg／L,RSD在2．0％。9．4％之间,加标回收率95％～103％。对标准样品进行分析验证,结果与标准值相符。应用于铁矿样品的测定,结果满意。     

不同环境下聚合物表面酸碱性的变化

应用测接触角并辅以XPS分析,研究了一种共聚物(MMA-Co-4Vp)在各种表面成型条件下及介质环境中的表面酸碱性变化,探索了其变化规律及导致变化的原因。     

纸张保存的化学

讨论了纸张保存过程中的某些化学问题,对纸张的酸性、酸性来源和纤维系酸催化水解以及影响纸张变质的其它因素进行了分析,评述了近年来在纸张脱酸、脱色和利用新的浆内施胶剂等方面研究取得的一些成果。     

ZSM-5分子筛酸位分布及其甲醇制烯烃催化性能的定向管理与调控

ZSM-5分子筛在甲醇制烯烃(MTO)过程中的催化性能和反应机理与其孔道中酸位点分布位置紧密相关. 本文证明在水热合成过程中加入适量的钠离子(Na⁺)可以增加ZSM-5分子筛交叉腔酸位点比例; 从而促进高级甲基苯的生成并加速芳烃循环, 有利于乙烯生成. 相反, 在合成过程中不添加钠离子, 所制备的ZSM-5分子筛直孔道和正弦孔道酸位点比例明显提高, 有利于促进烯烃循环并提高丙烯和C₃₊烯烃选择性.     

基于混酸回流制备碳点的中和过程

Carbon dots (C dots) are relatively novel carbon nanomaterials that have attracted significant interest due to their unique photoluminescence, good biocompatibility, and stability. The preparation methods of C dots was usually summarized into "top-down" and "bottom-up", and mixed acid reflux is a top-down strategy that can be used to synthesize C dots, during which neutralization is a necessary step that can significantly influence the properties and potential applications of the final product. Previously, this research area mainly focused on tuning the properties of C dots by changing the starting materials and/or varying the reaction conditions; the influence of the reagents used during neutralization has been largely ignored. As the previously reported C dots prepared by mixed acid reflux were obtained from different starting materials under varied conditions, a meaningful comparison is difficult. Herein, yellow-emitting C dots were prepared by mixed acid-refluxing a carbon-rich material derived from fullerene carbon soot. For the same batch of as-prepared C dots, the influences of four reagents, i.e., NaOH, Na₂CO₃, K₂CO₃, and NH₃·H₂O, during neutralization on the structures and photoluminescence of the resulting C dots were investigated in detail. The results of thermogravimetric analysis, Fourier transform infrared spectroscopy, and X-ray photoelectron spectroscopy clearly showed that the reagent used during neutralization can affect the degree of dissociation of the acidic functional groups on the C dots. This is further supported by examination of the C dot/surfactant mixtures where subtle changes in the phase behavior were observed. Structural changes of the C dots cause variations in their surface states, ultimately altering the optical characteristics, including UV-vis absorption and fluorescence. Among the treated C dots, the sample prepared with Na₂CO₃ showed the strongest emission under the same excitation wavelength, while that prepared with NH₃·H₂O exhibited a distinct red shift (~8 nm) in the emission curve. The results presented herein provide clear evidence that neutralization reagent selection is important for optimizing the properties of the resulting C dots obtained by mixed acid reflux. In addition, the photoluminescence of the C dots can be influenced by their counterions, providing a novel method for tuning the properties of C dots while explaining their behavior in saline solutions. In short, the basicity of the neutralizing reagent and the type of counterions affect the structure of the C dots surface, which brings different performances. This work reminds researchers that it is necessary to use the type of neutralizing reagent as an experimental condition when preparing C dots in the future.     

Synergistic effect of dealumination and ceria impregnation to the catalytic properties of MOR zeolite

MOR zeolite has been extensively employed as a catalyst in industries. However, high Brønsted acidity in MOR leads to rapid deactivation due to coke deposition on the pore mouths; thus, the surface acidity of MOR needs to be moderated. Herein, we report a modification of MOR chemical composition via acid treatment and deposition of ceria nanoparticles using a wet impregnation method. The acid treatment successfully increases the Si/Al ratio of MOR from 8.39 to 11.58 and reduces the total acid site concentration of MOR from 990 μmol/g to 752 μmol/g. The acidity of MOR is decreased when the Si/Al ratio is increased since the quantity of Brønsted acid sites is proportional to the number of Al framework. In addition, the acid treatment also improves the external surface area of MOR. Furthermore, ceria particles were successfully deposited on the MOR surface using wet impregnation method. The ceria content of parent MOR sample is lower compared to that of preceded by the acid treatment, which may be attributed to the formation of more terminal silanol groups. Finally, catalytic test on Friedel–Crafts alkylation of toluene with benzyl alcohol shows that the synergy between dealumination and the impregnation of ceria significantly improves the activity of MOR zeolite.     

对电极材料对非贵金属电催化剂耐久性评价的影响

质子交换膜燃料电池(PEMFCs)环境友好,具有高的能量转换效率,已受到了广泛的关注.目前,铂基电催化剂广泛使用在 PEMFCs中,但铂的储量有限,活性低,耐久性差,成本高,急需开发高性能的非贵金属电催化剂替代铂基电催化剂.非贵金属电催化剂的电化学表征基本上都沿用了铂基电催化剂的评价体系和方法,不一定适用于非贵金属电催化剂的表征.
　　本文选用铂和石墨为对电极考察其对非贵金属电催化剂在酸性电解质中耐久性测试的影响.当使用铂对电极时,商业 Pt/C电催化剂的氧还原(ORR)活性随着耐久性测试圈数的增加而降低,而非贵金属电催化剂的氧还原活性在耐久性测试过程中的变化规律与商业 Pt/C不同,呈现先降低,后升高的规律.耐久性测试前后的透射电镜(TEM)分析表明非贵金属电催化剂经过耐久性测试后,在电催化剂表面生长了铂纳米颗粒.高分辨透射电镜(HRTEM)和能量色散 X射线光谱(EDX)进一步证明以铂为对电极的三电极体系,在进行非贵金属电催化剂耐久性测试的过程中,非贵金属电催化剂表面生长了铂纳米颗粒,使得非贵金属电催化剂的 ORR活性在耐久性测试后得到显著提高.耐久性测试前后,非贵金属电催化剂氧还原过程的电子转移数由3.7变为4.0,再次证明了耐久性测试过程中铂颗粒的生成.在三电极电化学体系中,当工作电极发生阴极反应时,对电极为阳极反应,反之亦然,即在工作电极上发生的任何电化学过程,都会在对电极上完成相反的电化学过程.在循环电位扫描过程中,当铂对电极的电压高于1.0 V (vs RHE)时,开始发生铂的溶解现象,并且当电压高于1.2 V (vs RHE)时,铂的溶解量会急剧增加,部分溶解的铂会扩散到工作电极附近,并在工作电极的非贵金属电催化剂表面发生沉积作用.随着扫描圈数的增加,沉积的铂纳米颗粒的数量增加,颗粒变大,从而使非贵金属电催化剂的表观 ORR活性显著提高.该现象使得非贵金属电催化剂在酸性电解质中无法表现出其真实的耐久性.当选用石墨棒为对电极材料时,非贵金属电催化剂在酸性电解质中的 ORR活性不会受到对电极材料的影响.
　　通过考察对电极材料对非贵金属电催化剂在酸性电解质中耐久性能的影响,可以得出结论,即对非贵金属电催化剂在酸性电解质中的耐久性测试中,不宜使用铂对电极,应该使用石墨为对电极材料,以防止对电极材料干扰耐久性测试.