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前言自从发现协同萃取以来,许多作者对协同萃取进行了广泛的研究。Reddy等人应用亚砜等中性萃取剂研究了两种中性萃取剂的协同萃取(以下简称B-B类协萃),认为在第一萃取剂(S~Ⅰ)浓度([S~Ⅰ])固定时,萃取分配比D的对数值对第二萃取剂(S~Ⅱ)的浓度([S~Ⅱ])的对数值作图是直线,其斜率为S~Ⅱ的溶剂化数n,随[S~Ⅰ]的增加直线斜率逐渐下降。似乎难以用斜率分析法来确定溶剂化数目。本文研究了二-正-辛基亚砜(以下简称DOSO),TBP和TOPO从NH_4SCN溶液中萃取Ce(Ⅲ)。分析了实验数据,提出了B-B类协萃分配比D的计算公式。 相似文献
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本文报道了AOT-C6H12-H2O反相胶束介质中α-萘乙酸(α-NAA)敏化双乙酰(BIAC)的室温磷光。详细讨论了琥珀酸二(2-乙基己基)酯磺酸钠(AOT)浓度和水泡大小(W值)对敏化磷光的影响。吸收、发光性质和微粘度性质的实验表明AOT浓度对敏化磷光强度的影响由敏化磷光寿命、能量转移效率和Poisson分布决定; 一定范围内, 随着水浓度增大, 由于粘度下降和内腔半径增大作用的相互抵销, 水泡大小仅有微弱影响。当W([H2O]/[AOT])大于20后, 内腔半径增大起主要作用, 敏化磷光强度快速下降。与普通SDS胶束相比, 磷光强度约增强13倍, 检出限约下降一个数量级。建立了灵敏的测定α-萘乙酸和双乙酰的敏化室温磷光法, 检出限分别达2.0×10^-^8mol.dm^-^3(α-NAA)和8.5×10^-^9mol.dm^-^3(BIAC)。 相似文献
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The synergistic extractic extraction of lithium with a solution of o-phenylazophenols (HAX) and trioctylphosphine oxide (TOPO) or other trialkylphosphine oxide (TRPO, R = C8-10) in o-dichlorobenzene from aqueous solution of lithium hydroxide was reported. The structural effect of o-phenylazophenols on extraction of lithium has been examined. In the case of 1-(p-X-phenylazo)-2-naphthols, the HMO calculation shows that the charge density of azo nitrogen atom(the donor atom, denote azo N) and hydroxyl oxygen atom does not very apparently, so that the stability of their chelates with lithium has no obvious variations as well. In this case their ability to extract lithium is chiefly governed by the pKa. of the compound. The results of extraction prove that there is a linear correlation between the extraction constant Kex and pKa. However, for the second group of chelating agents, the change of their structure leads to the change of the change of both pKa and stability of chelates. The results of extraction and HMO calculation show that the stability of chelates is mainly influenced by the strength of the coordination bond, i.e. the larger the charge density of azo N (qN), the more stable the chelate will be. Therefore, their ability to extract lithium is roughly directly proportional to the stability of chelates and inversely to the pKa. the strength of coordination bond for the chelates can be experimentally measured by means of the strength of intramolecular hydrogen bond of chelating agent, ΔδOH (the diference of chemical shift of hydroxyl proton in free and bonded state). Therefore, the ratio, ΔδOH/pKa, can be used to evaluate the extraction ability of chelating agents to lithium. We find that it is approximately proportional to the distribution ratio (D). 相似文献
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本文研究了1,2-双烷基(芳基)硫代乙烷(L)——1,2-双(正辛基硫代)乙烷(BOTE)、1,2-双(正戊基硫代)乙烷(BATE)、1,2-双(苯基硫代)乙烷(BPTE)对金的萃取及其配合物的性质.双烷基硫代乙烷对金具有很强的萃取能力,可定量地萃取金.在溶液中,当[L]≥[Au~(3 )]时,Au与L形成1∶1Au-L配合物,而在[L]<[Au~(3 )]时,则为2∶1Au-L配合物.固态时,Au(Ⅲ)、Au(Ⅰ)与L只形成2∶1配合物(AuCl_3)_2L和AaCl)_2L.讨论了BOTE和BATE与Au(Ⅲ)、Au(Ⅰ)配合物的IR和~1H NMR谱.IR谱证实了关于Au(Ⅰ)配合物为线型结构的推断,并借助金原子的交换机理,解释了配合物与配位体的~1H NMR谱外观相似的原因.详细分析了Au(Ⅲ)配合物低频区的IR数据,提出了配合物有离子型结构的新证据. 相似文献
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The kinetics of the oxtraction of U(IV) chloride in the TOPO-HCl system has been studied using the single drop technique, The effects of the concentrations of U(IV, TOPO and HCl on the extraction rate for U(IV) have been examined. The extraction rate measured were found to be of first order with respect to (U(IV)) and (TOPO) (0). Moreover, the rate varied with (HCl)^3^/^2 between 2-7M hydrochloric acid. The extraction rate equation can be written as R=K(U(IV))(TOPO)(0) The rate constant K was evaluated to be 3.7X10^-^5 at 3M HCl and 15`C. The extraction rate was increased with increasing temperature. The apparent activation energy was found to be 10.8 kcal/mol between 15 to 45`C. It is suggested that the rate-controlling step may be the chemical reaction of UCl4 with TOPO at the interface and the formation of the interfacial complex UCL4.TOPO. 相似文献
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不同稀释剂中HDEHP的界面性质研究 总被引:2,自引:0,他引:2
用滴体积法研究了HDEHP在不同稀释剂-0.05mol.dm^-^3(N2, Na2)SO4(pH=2.40)体系中的界面性质, 认为吸附于液-液界面的是单体HDEHP分子, 得到了各体系中HDEHP的Cmin, Tmax, Ai以及△Gad等界面吸附参数。HDEHP在不同稀释剂体系中的界面活性顺序为: 脂肪烃>芳香烃>氯仿>甲基异丁基酮, 这种变化主要是在体相中和界面上稀释剂与萃取剂、界面上的萃取剂及稀释剂与界面层水之间分子间相互作用的结果。同时讨论了HDEHP在不同稀释剂中的萃取动力学机理。 相似文献
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