Л. А. Раскола scite author profile

We describe the composition, structure, and catalytic activity in the reaction of ozone decomposition for copper(II) complexes with acido ligands and immobilized Schiff's bases (propyl benzaldimine derivatives) that are anchored on silica (silica gel, aerosil). We demonstrate methods for controlling their catalytic activity.Anchoring metal complexes on the surface of various supports by even very simple methods (impregnation, ion-exchange adsorption) leads to significant changes in their reactivity and catalytic capacity. An example of this is data on the catalytic activity of Pd(II) -Cu(II) complexes anchored on oxide supports and natural zeolite in low-temperature oxidation of CO by oxygen [1, 2] and Cu(II) complexes in oxidation of phosphine [3]. Such complexes have demonstrated higher catalytic activity and stability compared with their liquid-phase analogs. A substantial change in catalytic properties in ozone decomposition has been exhibited by chloride complexes of copper(II) anchored on SiO 2 by the impregnation method [4], and also by copper(II) complexes with Schiff's bases immobilized on aerosil (propyl salicylaldimine, 5-bromo propyl salicylaldimine, and 2-hydroxynaphthalene propyl aldimine) [5,6]. In contrast to the previous examples, the indicated copper(II) complexes do not catalyze decomposition of ozone in the liquid phase [7], so information about the effect of the anchoring method, the composition, and the structure of copper(II) complexes on the ozone decomposition kinetics is needed to predict their catalytic activity in redox reactions.The aim of this work was to establish a connection between the composition and the structure of copper(II) complexes with acido ligands and Schiff's bases (propyl benzaldimine derivatives) that are anchored on silica and their catalytic activity in low-temperature ozone decomposition.In continuing the work in [4-6], we needed to study the kinetics of ozone decomposition by impregnated CuX 2 /SiO 2 complexes (X = Cl -, NO 3 − ), copper(II) complexes with 2-hydroxy-3-methoxy propyl benzaldimine and 4-hydroxy-3-methoxy propyl benzaldimine immobilized on aerosil, and also to compare the data obtained with previously published data.60 0040-5760/06/4201-0060

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Schiff bases containing metal complexes anchored on aerosil as catalysts of low-temperature ozone decomposition

Rakitskaya

Golub

Еннан

et al. 2000

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Natural Clinoptilolite Anchored Chlorides of 3d Metals in the Reaction of Low-Temperature Sulfur Dioxide Oxidation With Air Oxygen

Rakitskaya¹,

Kiose²,

Раскола³

et al. 2018

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1 Одеський національний університет імені І.І. Мечникова, кафедра неорганічної хімії та хімічної екології, вул. Дворянська, 2, Одеса, 65082, Україна Е-mail: TLR@onu.edu.ua 2Одеський національний медичний університет, пров. Валіховський, 2, Одесса, 65082, Україна ЗАКРІПЛЕНІ НА ПРИРОДНОМУ КЛИНОПТИЛОЛІТІ ХЛОРИДИ 3d-МЕТАЛІВ У РЕАКЦІЇ НИЗЬКОТЕМПЕРАТУРНОГО ОКИСНЕННЯ ДІОКСИДУ СІРКИ КИСНЕМ ПОВІТРЯВивчена кінетика окиснення діоксиду сірки в присутності закріплених на природному клиноптилоліті хлоридів 3d-металів. Показано, що зразки проявляють різний час захисної дії та час досягнення напівперетворення SO 2 , тривалість яких залежить від природи та вмісту МСl 2 (М = Cu 2+ , Co 2+ , Mn 2+ , Cd 2+ ). Встановлено, що найкращі захисні кінетичні та стехіометричні параметри реакції окиснення діоксиду сірки спостерігаються в разі композиції CuCl 2 /П-Кл.Ключові слова: природний клиноптилоліт, закріплені хлориди 3d-металів, діоксид сірки, окиснення, кисень повітря

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