Adsorption phenomena in the systems containing macrocyclic cavitand cucurbit [7]uryl
- 作者: Stenina E.V.1, Sviridova L.N.1, Petrov N.K.2
- 
							隶属关系: 
							- Chemical Faculty
- Center of Photochemistry
 
- 期: 卷 53, 编号 1 (2017)
- 页面: 103-109
- 栏目: Special Issue: X International Frumkin Symposium on Electrochemistry (Moscow, October 21–23, 2015), Part 2
- URL: https://journals.rcsi.science/1023-1935/article/view/188444
- DOI: https://doi.org/10.1134/S102319351701013X
- ID: 188444
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Adsorption phenomena at the mercury electrode/cucurbit[7]uryl aqueous solutions are studied by the measuring of the electrode differential capacitance C as a function of potential E. The data obtained showed that the adsorption potential region is abnormally wide (>2 V). Two segments are observed in the C,E-dependences, which relate to adsorption layers with different structure. The complicated adsorption layers forming in the studied systems can be explained by the structure of the cucurbit[7]uryl cavitand whose complexes with inorganic cations are formed by the cation binding by oxygen-containing groups of external portals, rather than their inclusion into the cavitand’s inner cavity as in the case of cryptate formation. Adsorption parameters for adsorbate layers formed in the cucurbit[7]uryl + Na2SO4 solution are calculated. The data obtained evidence a rather strong potential dependence of the properties of the adsorption layers formed at the electrode/solution interface in the studied system.
作者简介
E. Stenina
Chemical Faculty
							编辑信件的主要联系方式.
							Email: estenina@yandex.ru
				                					                																			                												                	俄罗斯联邦, 							Moscow, 119992						
L. Sviridova
Chemical Faculty
														Email: estenina@yandex.ru
				                					                																			                												                	俄罗斯联邦, 							Moscow, 119992						
N. Petrov
Center of Photochemistry
														Email: estenina@yandex.ru
				                					                																			                												                	俄罗斯联邦, 							Moscow, 119421						
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