共查询到18条相似文献,搜索用时 62 毫秒
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N,N′-二-(11-(乙氧基羟基)十一烷基)-N,N′-4,5-四甲基-3,6-二(口恶)辛基-1,8-二酰胺(ETH1001)广泛用于制备检测细胞内外钙离子活度的离子选择性微电极。为降低膜电阻和消除被测离子的干扰,多采用四苯硼钠(NaTPB)作为添加剂,但这种电极仍存在一些缺点,曾有报道用其它化合物代替NaTPB作添加剂,但电极选择性并没有提高。 相似文献
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混合型中性载体PVC膜pH电极的研究 总被引:1,自引:1,他引:1
本文以菸酸十八烷基酯和二辛基十八胺两性载体混合研制成PVC膜PH电极,采用正交实验设计优化了电极的膜组成,测得电极的PH线性响应范围为1.8-12.1,秦为55.6mV/pH(18℃),获得满意结果。 相似文献
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一种新的适合低pH范围的中性载体PVC膜电极的研究 总被引:2,自引:0,他引:2
设计并合成了N-十八烷基水杨醛亚胺(ODSAI),N-十八烷基苯甲醛亚胺(ODBAI)两种新的亚胺化合物,并以此为中性载体,制成了PVC膜PH电极。此电极在PH0.6-8.5的范围内,对氢离子呈现很的能斯响应,电极斜率为52mV/pH。 相似文献
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用氯化石腊和邻硝基苯辛醚为混合溶剂制备中性载体ETH5214的镁离子选择性微电极,相对于钾离子的电位选择性系数较单独以邻硝基苯辛醚为溶剂的ETH5214镁微电极改善0.9个数量级。在纯MgCl~2和在含细胞内典型离子背景的MgCl~2溶液中,响应斜率为Nernst响应,检测下限分别为4×10^-^7mol.dm^-^3和2×10^-^5mol.dm^-^3。在pH3.5-9.5范围内,氢离子对电极的电位响应无影响。测量的重现性良好。电极的实用响应时间(t~9~5)≤3s,有效寿命长于5天。 相似文献
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1引言研制中性载体PVC膜离子选择电极,关键是设计及选择合适的载体。杯芳烃衍生物作为高选择性载体已成功地用于离子选择电极上。本研究合成了两种新的对-叔丁基杯[4]芳烃磷酸酯类衍生物,以此化合物为载体制备了两种铅离子选择性膜电极,并对电极的性能进行了研究。2实验部分2.1 相似文献
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《Analytical letters》2012,45(11):843-850
Abstract The performance of a liquid-membrane electrode using a synthesized ligand in p-nitroethylbenzene as membrane component is described. Selectivities, working range, lifetime, pH-dependence, and dependence on the dielectric constant of the membrane solvent are discussed. The electrode makes possible the measurement of calcium ion activities in the range of 10?1 M to 10?5 M In unbuffered systems with a selectivity of calcium over sodium and magnesium of 175 and 33,000 respectively. The selectivity constants of the cell discussed are heavily influenced by the dielectric constant of the membrane solvent. 相似文献
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《Analytical letters》2012,45(10):709-720
Abstract The performance of a liquid-membrane electrode using a synthetic, neutral carrier in o-nitro-phenyl-n-octyl-ether as membrane component in a PVC matrix, in the presence of sodium tetra-phenyl-borate, is described. Selectivities, working range, lifetime and anion interference are discussed. The electrode makes possible the measurement of calcium ion activities in the range 10?1M to 10?6M in unbuffered and in the range 10?1M to 10?8M in calcium buffered systems respectively. The selectivities of calcium over protons, magnesium, sodium and zinc are 25,000, 26,000, 2,800 and 7,100, respectively, and are far superior than those reported for other calcium sensors. 相似文献