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91.
92.
以氯甲基化交联聚苯乙烯(CMCPS)微球为出发物质,首先在催化剂KI存在下,与六次甲基四胺(HMTA)进行Delepine反应,制得氨基化改性的聚苯乙烯微球AMCPS;然后再使微球AMCPS与水杨醛(SA)发生Schiff碱反应,制备了Schiff碱型螯合树脂SACPS微球,采用红外光谱法表征了其化学结构。 重点研究了CMCPS微球氨基化改性Delepine反应的影响因素,探讨了反应机理。 研究结果表明,催化剂KI对CMCPS微球表面的苄氯基团与HMTA之间的Delepine反应,具有很强的催化作用;使用极性较强的溶剂DMSO及在较高的温度(80 ℃)下反应,氯甲基转变为氨甲基的效率高;Schiff碱型螯合树脂SACPS对Cu2+离子具有良好的螯合能力。 相似文献
93.
应用流动注射技术,用D412螯合树脂微柱富集海水中的铅(Ⅱ),并与火焰原子吸收光谱法相结合测定海水中铅(Ⅱ)。20mL海水样品以3mL.min-1流量进柱,被树脂螯合吸附富集,以0.2mol.L-1乙酸铵溶液5mL淋洗柱体去除干扰物,以4mol.L-1硝酸溶液4mL为洗脱剂(流量为7mL.min-1),洗脱液直接引入火焰原子吸收光谱仪雾化器,在线检测。当海水样进样20mL时,铅(Ⅱ)测定灵敏度可提高约35倍;检出限(3s)为1.3μg.L-1。实际应用于海水样品分析,加标回收率为94.5%,测定值的相对标准偏差(n=6)为2.2%。 相似文献
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6-氨基青霉烷酸在弱碱性阴离子树脂IRA67上的吸附研究 总被引:2,自引:0,他引:2
用静态法研究了6-氨基青霉烷酸在弱碱性阴离子交换树脂IRA67上的吸附行为.在溶液pH为8.0,6-APA起始浓度介子3.00mg/m1-20.00mg/ml条件下,测定了25℃时IRA67树脂的静态交换动力学曲线、吸附等温线,并求得了IRA67树脂的平衡速率常数及吸附等温线方程.分别用Langmuir型和Frendlich型方程对IRA67树脂吸附等温线进行线性回归拟合,结果表明,6-APA在IRA67树脂上的吸附更符合Langmuir型吸附. 相似文献
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98.
Humayun Mandal Allan S. Hay 《Journal of polymer science. Part A, Polymer chemistry》1998,36(14):2429-2437
Novel polycyclic siloxane resins were prepared from phenol-formaldehyde novolac type resins by reacting them with dialkyl or diaryl dichlorosilanes under anhydrous and high dilution conditions. The formation of polycyclic species was confirmed by the detection of absolute masses by MALDI-TOF mass spectrometry. 1H- and 29Si-NMR confirmed the substitutions of phenolic hydroxy groups by siloxane bonds. Curing studies were conducted on the polycyclic siloxane resins as well as on the polycyclic siloxane resins incorporated into two types of polysiloxane gums. A trace amount of potassium hydroxide was used as a catalyst for the crosslinking of these systems. The blend of polysiloxane with 30 wt % polycyclic siloxane was found to be stable at the curing temperature. Differential scanning calorimetry and thermogravimetric analysis techniques were used to study the thermal profiles of these systems. © 1998 John Wiley & Sons, Inc. J. Polym. Sci. A Polym. Chem. 36: 2429–2437, 1998 相似文献
99.
The tensile mechanical behavior of an epoxy/amine system, with varying amounts of hardener, was evaluated. The results showed that a brittle to ductile transition occurs as the amount of hardener is increased. This behavior was associated with the change in the number of molecular segments that present mobility in the macromolecular network. The epoxy-rich formulations are brittle due to the total consumption of the functional groups on the hardener molecule. On the other hand, the amine-rich formulations showed a fracture behavior characteristic of materials with large deformation capacity. This behavior was associated with the presence of unreacted points on the hardener molecule which introduce a new mobile molecular segment in the macromolecular network formed. © 1998 John Wiley & Sons, Ltd. 相似文献
100.
Mohamed Baqar Tarek Agag Hatsuo Ishida Syed Qutubuddin 《Journal of polymer science. Part A, Polymer chemistry》2012,50(11):2275-2285
A new class of high‐performance resins of combined molecular structure of both traditional phenolics and benzoxazines has been developed. The monomers termed as methylol‐functional benzoxazines were synthesized through Mannich condensation reaction of methylol‐functional phenols and aromatic amines, including methylenedianiline (4,4′‐diaminodiphenylmethane) and oxydianiline (4,4′‐diaminodiphenyl ether), in the presence of paraformaldehyde. For comparison, other series of benzoxazine monomers were prepared from phenol, corresponding aromatic amines, and paraformaldehyde. The as‐synthesized monomers are characterized by their high purity as judged from 1H NMR and Fourier transform infrared spectra. Differential scanning calorimetric thermograms of the novel monomers show two exothermic peaks associated with condensation reaction of methylol groups and ring‐opening polymerization of benzoxazines. The position of methylol group relative to benzoxazine structure plays a significant role in accelerating polymerization. Viscoelastic and thermogravimetric analyses of the crosslinked polymers reveal high Tg (274–343 °C) and excellent thermal stability when compared with the traditional polybenzoxazines. © 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012 相似文献