Your search keyword '"HYDROTHERMAL SYNTHESIS"' showing total 20 results

1. Methods for the synthesis of barium titanate as a component of functional dielectric ceramics

Author

A. A. Kholodkova, A. V. Reznichenko, A. A. Vasin, and A. V. Smirnov

Subjects

barium titanate, ferroelectrics, piezoceramics, perovskite-like oxide ferroelectrics, solid-state synthesis, sol–gel method, hydrothermal synthesis, supercritical water, Chemistry, QD1-999

Abstract

Objectives. To examine the general principles and recent advances in the synthesis of high-purity and high-homogeneity barium titanate powders in the manufacture of electronic components.Results. The main publications regarding the synthesis of barium titanate powder, including the works of recent years, were analyzed. The technological advantages and disadvantages of various synthesis methods were identified. Groups of methods based on solid-state interaction of reagents and methods of “wet chemistry” were also considered. The possibilities of producing barium titanate particles of non-isometric shapes for creating textured ceramics were discussed separately.Conclusions. Barium titanate is a well-known ferroelectric with a high dielectric constant and low dielectric loss. It is used as a component in ceramic electronic products, for example, capacitors, memory devices, optoelectronic devices, and piezoelectric transducers. The possibilities of producing functional ceramics based on barium titanate powder largely depend on its state and morphological characteristics, determined during the synthesis stage. The most important factors affecting the functional characteristics of ceramics are the purity and morphology of the powder raw materials used.

Published

2024

2. Dependence of physical-chemical properties of fluorescent hybrid polymer carriers on the conditions of hydrothermal synthesis

Author

Kovyrshina, Anastasia A., Bakal, Artem A., Saveleva, Мariia S., Goryacheva, Irina Y., and Demina, Polina A.

Subjects

hydrothermal synthesis, low-molecular-weight dyes, encapsulation, core-shell structures, release kinetics, Biology (General), QH301-705.5

Abstract

Currently, the search for new types of carriers for low-molecular weight substances, as well as the development of optimal methods for the eff ective encapsulation of these substances are important tasks of modern chemistry and pharmacology. However, there are still limitations in this area, among which one of the most signifi cant is the lack of the optimal carrier capable of stably retaining a low-molecular weight substance. The work presents hybrid polymer structures obtained by in situ hydrothermal synthesis as an eff ective candidate for these purposes. The fl uorescent dye rhodamine B has been used as a model low-molecular weight substance for encapsulation into the structures. The resulting hybrid polymer structures demonstrated good stability when stored in an aqueous environment for 336 h with the release of the low-molecular weight dye rhodamine B no more than 2%. In addition, the infl uence of the conditions for obtaining hybrid carriers (including the composition of the carriers (thickness of the polymer shell and the presence of a calcium carbonate core) and synthesis temperature) on their physical-chemical characteristics has been studied. Thus, the optimal approach for obtaining fl uorescent hybrid polymer carriers with a set of desired properties has been revealed. In particular, it has been shown that the optimal production conditions are hydrothermal synthesis temperature of 180 °C and the absence of CaCO3 core inside the polyelectrolyte shell which allow us to obtain a stable hybrid polymer carrier with bright fl uorescence. The results presented in this study can be used to create functional platforms and systems with tunable fl uorescent properties and the ability to deliver low-molecular weight substances.

Published

2024

3. Formation of cobalt hydroxosilicate in amorphous silica matrix

Author

I.S. Medyankina, K.I. Svetlakova, and L.A. Pasechnik

Subjects

amorphous silica, cobalt silicate, hydrothermal synthesis, mechanosynthesis, microstructure, photocatalysis, hydroquinone, Physical and theoretical chemistry, QD450-801

Abstract

The synthesis of cobalt hydroxysilicate Co3(Si2O5)2(OH)2 in a matrix of high dispersity amorphous silica has been proposed. It is shown the formation of a hydroxosilicate, which combines coordinated silica and cobalt-oxygen polyhedrons in the overall structure, as well as the availability of surface hydroxyl groups, contribute to the preservation of a high specific surface area as is in amorphous SiO2. The hydroxosilicate also contributes to the effective manifestation of photocatalytic properties due to the presence of cobalt (2+), which has a high reactivity. As methods of synthesis of SiO2/Сo composites hydrochemical methods are used by impregnation and autoclave treatment with solution of cobalt formate of silica. The influence of the amount of introduced cobalt on the composition, structure, and properties of a composite material containing Co3(Si2O5)2(OH)2 in a SiO2 matrix has been traced. SiO2/Co composites have been tested in the hydroquinone photooxidation reaction when exposed to ultraviolet radiation. The highest degree of hydroquinone decomposition amounting to 84% in 18 hours was achieved for SiO2/Co at a molar ratio of components Co:Si = 0.01:1.

Published

2022

4. СТРУКТУРНЫЕ ОСОБЕННОСТИ БИМЕТАЛЛИЧЕСКОГО ЭЛЕКТРОКАТАЛИЗАТОРА ФОСФИДА Ni-Co-P, ПРЕДНАЗНАЧЕННОГО ДЛЯ ГЕНЕРАЦИИ ВОДОРОДНОГО ТОПЛИВА

Author

РАШИДОВА, К. Х., МИНАВВАРОВ, А. А., КАТТАЕВ, Н. Т., and АКБАРОВ, Х. И.

Subjects

*CRYSTAL morphology, *CRYSTAL surfaces, *CRYSTAL structure, *SURFACE structure, *SURFACE morphology

Abstract

Background. To decompose water, electrocatalysts based on expensive Pt, Ir are used. However, there is an alternative - catalysts from compounds of d-elements: Fe, Co, Ni, Cu. Purpose. Study of structural morphology features of Ni-Co-P bimetallic phosphide.. Methodology. The synthesis of Ni-Co-P was carried out by a one-stage hydrothermal method, in air. The structure of the sample was studied by electron microscopy (SEM), energy-dispersive spectroscopy, and X-ray diffractometry. Originality. It was revealed that the synthesized Ni-Co-P has a pronounced crystal structure of the compounds Ni2P4O12 (59%), NiP2O7 (37%) and NiCoP (4%). Findings. The synthesis of Ni-Co-P was carried out. The phase composition, morphology of the surface and crystal structure, the nature of the distribution of elements over the volume of Ni-Co-P bimetallic phosphide were studied by physicochemical methods of analysis. [ABSTRACT FROM AUTHOR]

Published

2023

5. Facile fabrication of a TiO2 NW-based glucose sensor by direct ink writing

Author

Tarasov Andrey, Dubkov Sergey, Gromov Dmitry, Ryazanov Roman, and Volkova Lida

Subjects

tio2, nanowires, hydrothermal synthesis, glucose sensor, Mathematics, QA1-939, Physics, QC1-999

Abstract

This paper presents the results of facile fabrication of a non-enzymatic glucose sensor by forming a sensing element based on TiO2 nanofilaments using direct ink writing (DIW). The glucose concentration in the solution was determined by changing the resistance of the TiO2 layer. Nanowires (NW) were obtained by hydrothermal synthesis in 10 M sodium alkali solution followed by heat treatment. The surface morphology of obtained samples was studied using scanning electron microscopy. The formation of a sensitive layer was carried out on a 3D printer with a specially designed print head from a suspension based on an aqueous solution of polyvinyl alcohol (PVA) followed by heat treatment in air. The suspension was analyzed for viscosity and contact angle. The sensitive layers were formed on a silicon substrate with a SiO2 surface oxide layer and gold contacts. Layers of TiO2 NW were formed between the contacts. The sensitivity of the sensor to glucose solutions of various concentrations was studied. As a result of the studies, the studied structures showed sensitivity to a glucose solution in the range from 1 to 100 mmol.

Published

2022

6. Fluorescent nanostructures based on folic acid and citrate: Synthesis and properties

Author

Mordovina, Ekaterina Alekseevna, Tsyupka, Daria Vladislavovna, Bakal, Artem Alekseev, Abramova, Anna Mihailovna, and Goryacheva, Irina Iur'evna

Subjects

fluorescent nanostructures, one-step synthesis, hydrothermal synthesis, folic acid, citric acid, sodium citrate, water-soluble nanostructures, Physics, QC1-999

Abstract

The fluorescent properties of products obtained by the hydrothermal treatment of organic raw materials are of great interest. Such products are usually colloidal stability in water, have low cytotoxicity, and high photostability. One of their advantages is a wide choice of starting materials and the relative simplicity of synthesis. The use of folic acid as a precursor for fluorescent nanostructures opens up the possibility of targeted imaging. This article shows a one-step synthesis of fluorescent nanostructures from folic acid and citrates. The effect of citrate concentration in the range from 0.05 to 2 mol/l on the optical properties of the synthesized structures is also studied.

Published

2021

7. ANALYSIS OF CHANGES IN THE SURFACE COMPOSITION DURING FORMATION OF ZINC STANNATE NANOSTRUCTURES

Author

Z.V. Shomakhov, S.S. Nalimova, Z.Kh. Kalazhokov, and V.А. Moshnikov

Subjects

zinc stannate, nanostructures, hydrothermal synthesis, x-ray photoelectron spectroscopy, Physical and theoretical chemistry, QD450-801

Abstract

Zinc stannate nanostructures were synthesized by hydrothermal method, and zinc oxide nanorods were used as starting materials. Formation of multicomponent oxides was studied by using the X-ray photoelectron spectroscopy. It was found that tin ions are gradually embedded in the crystal lattice of zinc oxide nanorods and replaced zinc ions during hydrothermal synthesis with the formation of zinc stannate nanostructures. The study of the synthesis time effect on the surface chemical composition of the prepared samples has shown formation of zinc stannate after hour, that is confirmed by changes in the binding energies of zinc and oxygen. With a longer synthesis, zinc stannate nanostructures collapsed, thus zinc and tin oxides are practically not observed on the sample surface.

Published

2020

8. Synthesis and properties of composite materials based on zinc oxide nanoparticles in an insulating matrix

Author

S. Y. Karankova, I. A. Tikhonov, and E. B. Chubenko

Subjects

zinc oxide, nanoparticles, hydrothermal synthesis, composite materials, photoluminescence, Electronics, TK7800-8360

Abstract

A composite material based on zinc oxide nanoparticles synthesized by the chemical hydrothermal method and a polymer insulated matrix of sodium silicate was obtained. Free zinc oxide nanoparticles were formed by heating an equimolar solution of zinc nitrate and hexamethylenetetramine with different pH values (3–5). Nanoparticles were introduced into an aqueous sodium silicate solution and applied on a silicon substrate by centrifugation. Using scanning electron microscopy, we studied the structure and morphology of zinc oxide nanoparticles on a silicon substrate in unbound state and after their introduction into the sodium silicate matrix. It was found that the obtained particles have a hexagonal crystal lattice and a bimodal size distribution. After introduction in the matrix of sodium silicate, only smaller zinc oxide nanoparticles with an average diameter of 45 nm remain in it. Studying of the photoluminesclence spectra of a composite material, including zinc oxide nanoparticles obtained at different pH values of the initial solution, showed the presence of exciton and defectrelated photoluminescence bands with intensity’s maximums located at 383 and 590 nm, respectively. Zinc oxide nanoparticles in the stabilizing matrix of sodium silicate exhibit a higher relative intensity of exciton photoluminescence than unbound particles. The highest value of the relative intensity of exciton photoluminescence was achieved for a composite material including zinc oxide nanoparticles synthesized at pH=3,35 of the initial solution. The resulting composite materials can be used in optoelectronic and photovoltaic devices, and as an optical medium of non-cavity lasers.

Published

2020

9. Preparation and properties of zirconium tungstate with anomalous thermal characteristics

Author

Elena Dedova, Vladimir Shadrin, Alexander Gubanov, and Sergey Kulkov

Subjects

zirconium tungstate, negative thermal expansion, hydrothermal synthesis, phase transformations, cermet, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The main aim of the study: The actuality of the discussed issue is caused by the lack of systematic studies of structural phase transformations of zirconium tungstate at temperature increase. The methods used in the study:High temperature in situ X-ray analysis, refinement of the structure by the Rietveld method using TOPAS v.4.2 (Bruker) software, thermogravimetric differential scanning calorimetry. The results: The morphology of the material was represented as rod-shaped particles having a block structure. The ZrW2O8 synthesized was kinetically stable from 25 to 540 °C. Temperature increase has initiated structural change which resulted decomposition of ZrW2O8 into ZrO2 and WO3. The ZrW2O8 synthesized demonstrated a negative thermal expansion behavior from 25 to 750 °C.

Published

2019

10. Гидротермальный и электрохимический синтезы наночастиц MoS2 и их характеризация

Author

Ласкова-Бачу, Р.

Abstract

Copyright of Electronic Processing of Materials / Elektronnaya Obrabotka Materialov is the property of Institute of Applied Physics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

11. Получение и исследование нанотрубок оксида цинка

Author

Горбик, П. П., Дубровин, И. В., and Кашин, Г. Н.

Abstract

Copyright of Metallophysics & Advanced Technologies / Metallofizika i Novejsie Tehnologii is the property of G.V. Kurdyumov Institute for Metal Physics, N.A.S.U and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

12. Synthesis of vanadium-containing Ti-MCM-41 silicates and their catalytic properties in propane dehydrogenation.

Author

Redkina, A. V., Konovalova, N. D., and Khomenko, K. N.

Subjects

*VANADIUM, *CHEMICAL synthesis, *PROPANE, *DEHYDROGENATION, *MESOPOROUS materials, *X-ray diffraction, *X-ray fluorescence

Abstract

Ti-MCM-41 silicate with vanadium introduced in mesoporous structure has been obtained by hydrothermal template synthesis with participation of VOSO4 and pyrogenic titanoaerosil with 1.4 wt. % tetrahedrally coordinated titanium. By the X-ray diffraction, X-ray fluorescent spectroscopy, DR UV-vis analysis and adsorption of nitrogen it has been shown that even 0.3 wt. % V causes raising spatial order and hydrolytic stability of Ti-MCM-41. It has been found that additional supporting of VOx groups on a surface of the synthesized bimetallic silicate allowed to obtain the catalyst 5 %VOx/V, Ti-MCM-41 which due to dehydrogenation of propane generated propylene with bigger selectivity and yield than those when VOx was supported on MCM-41 and Ti-MCM-41. [ABSTRACT FROM AUTHOR]

Published

2014

13. ПЕРСПЕКТИВЫ СИНТЕЗА КАРКАСНОГО ТИТАНОСИЛИКАТА АМ-4 ДЛЯ ЦЕЛЕЙ СОВРЕМЕННОГО МАТЕРИАЛОВЕДЕНИЯ

Subjects

hydrothermal synthesis, 5-бензодиазепин, гидротермальный синтез, АМ-4, cement composition, линтисит, titanosilicate, титаносиликат, AM-4, 5-benzodiazepine, цементная композиция, lintisite

Abstract

Титаносиликаты группы линтисита и их единственный синтетический аналог АМ4 (AveiroManchester4), Na3(Na,H)Ti2O2Si2O622H2O, представляют особый интерес для целей современного материаловедения ввиду наличия у них сорбционных свойств подобных цеолитам, а также способности их кристаллической структуры трансформироваться в кислых средах по схеме монокристалл в монокристалл . Это открывает новые пути синтеза на основе декатионизированного АМ4 материалов с заранее заданными свойствами. В работе дан обзор перспективных областей применения данных титаносиликатов, предложенных как авторами статьи, так и рядом зарубежных исследователей. Показана важность синтеза АМ4 для промышленности. Выявлена основная проблема общепринятой схемы синтеза АМ4. Предложены рекомендации по её решению, а также применению побочных продуктов синтеза с целью улучшения полноты использования (утилизации) таковых., The titanosilicates of the lintisite group and their only synthetic analogue AM4 (AveiroManchester4), Na3(Na, H)Ti2O2Si2O6 22H2O, are of particular interest for the purposes of modern materials science because of their sorption properties similar to those of zeolites, and also the ability of their crystal structure to transform in acidic media according to the single crystal in single crystal scheme. This opens up new ways of synthesis based on decationized AM4 materials with predetermined properties. The paper provides an overview of the promising areas of application of these titanosilicates, proposed by both the authors of the article and a number of foreign researchers. The importance of AM4 synthesis for industry has been shown. The main problem of the conventional AM4 synthesis scheme has been revealed. Recommendations on its solution, as well as on the use of synthesis of byproducts in order to improve their utilization, have been proposed., №1 (2019)

Published

2019

14. Hydrothermal and Electrochemical Synthesis of MoS2 Nanoparticles and Their Characterization

Author

Lascova-Baciu, R.

Subjects

hydrothermal synthesis, photoluminescence spectroscopy, molybdenum sulfide, nanoparticles, electrolisis in ionic liquids

Abstract

The features of the hydrothermal synthesis (molybdenum precursor – Na2MoO4, sulfur precursor – thioacetamide, temperature – 220°C) and of the electrochemical one (anodic formation of nanoparticles from MoS2single crystals at electrolysis in ionic liquid) are described. The X-ray fluorescence, optical absorption, and photoluminescence spectroscopy were applied for their characterization.

Published

2019

15. Anisole conversion using catalysts synthesized by hydrothermal method

Author

Shimanskaya E., Guseva P., and Stepacheva A.

Subjects

hydrothermal synthesis, hypercrosslinked polystyrene, hydrogenolysis, lignin, anisole

Abstract

This work is devoted to the study of conversion of anisole, as one of the lignin monomers, in the presence of catalysts synthesized by the hydrothermal method. Platinum and palladium catalyst deposited on the polymer matrix of hypercrosslinked polystyrene allowed achieving about 90% of anisole conversion. It was shown that during the conversion of anisole, cyclohexane, methylcyclohexane and phenol are the main products. The highest selectivity (approx. 88%) with respect to cyclohexane was shown by a platinum catalyst supported on hypercrosslinked polystyrene. The palladium catalyst showed lower selectivity for cyclohexane (approx., 68%), however, analysis of the reaction mixture revealed an increase in the content of methylcyclohexane. Thus, the use of catalysts synthesized by the hydrothermal method in the processing of biomass components is a promising direction for the development of biofuel production technologies., Работа выполнена при финансовой поддержке РНФ (грант 18-79-00303)., {"references":["Yang, H., Yan, R., Chen, H., Lee, D. H., & Zheng, C. (2007). Characteristics of hemicellulose, cellulose and lignin pyrolysis. Fuel, 86(12-13), 1781-1788.","Borges da Silva, E. B., Zabkova, M., Araújo, J. D., Cateto, C. A., Barreiro, M. F., Belgacem, M. N., & Rodrigues, A. E. (2009). An integrated process to produce vanillin and lignin-based polyurethanes from Kraft lignin. Chemical Engineering Research and Design, 87(9), 1276-1292.","Kumar, C. R., Anand, N., Kloekhorst, A., Cannilla, C., Bonura, G., Frusteri, F., Barta, K., & Heeres, H. J. (2015). Solvent free depolymerization of Kraft lignin to alkyl-phenolics using supported NiMo and CoMo catalysts. Green Chemistry, 17(11), 4921-4930.","Li, C., Zhao, X., Wang, A., Huber, G. W., & Zhang, T. (2015). Catalytic transformation of lignin for the production of chemicals and fuels. Chemical Reviews, 115(21), 11559-11624.","Patil, P. T., Armbruster, U., Richter, M., & Martin, A. (2011). Heterogeneously catalyzed hydroprocessing of organosolv lignin in sub-and supercritical solvents. Energy & Fuels, 25(10), 4713-4722.","Huber, G. W., Iborra, S., & Corma, A. (2006). Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering. Chemical reviews, 106(9), 4044-4098.","Kamm, B., & Kamm, M. (2004). Principles of biorefineries. Applied microbiology and biotechnology, 64(2), 137-145.","Bozell, J. J., & Nicholas, K. M. (2014). Selective Catalysis for Renewable Feedstocks and Chemicals. Top. Curr. Chem, 353, 229-255.","Bulushev, D. A., & Ross, J. R. (2011). Catalysis for conversion of biomass to fuels via pyrolysis and gasification: a review. Catalysis today, 171(1), 1-13.","Elliott, D. C. (2007). Historical developments in hydroprocessing bio-oils. Energy & Fuels, 21(3), 1792-1815.","He, Z., & Wang, X. (2012). Hydrodeoxygenation of model compounds and catalytic systems for pyrolysis bio-oils upgrading. Catalysis for sustainable energy, 1, 28-52.","Runnebaum, R. C., Nimmanwudipong, T., Block, D. E., & Gates, B. C. (2011). Catalytic conversion of anisole: evidence of oxygen removal in reactions with hydrogen. Catalysis letters, 141(6), 817-820.","Stepacheva, A. A., Markova, M. E., Gavrilenko, A. V., Matveeva, V. G., Sulman, E. M., & Sulman, M. G. (2018). Ni-containing catalyst for fatty acid deoxygenation. Scientific and Technical Volga region Bulletin, (5). 59-61. (in Russian).","Stepacheva, A. A., Bykov, A. V., Sidorov, A. I., Sulman, M. G., Matveev,a V. G., Sulman, E. M., Markova, M. E. Ni (2018). Catalyst Synthesized By Hydrothermal Deposition On The Polymeric Matrix In The Supercritical Deoxygenation Of Fatty Acids. Reaction Kinetics, Mechanisms and Catalysis, 213-226."]}

Published

2018

16. Модификация поверхности магниевого сплава МА8 гидротермальным методом

Subjects

сплавы магния, magnesium alloys, hydrothermal synthesis, электрохимическая импедансная спектроскопия, electrochemical impedance spectroscopy, гидротермальный синтез, morphology, защитные покрытия, protective coatings, морфология

Abstract

На сплаве магния Mg–Mn–Ce (МА8) методом гидротермального синтеза получены покрытия в различных щелочных растворах, в том числе содержащих соединения кальция и фосфора. Показано, что формируемые покрытия состоят преимущественно из оксида и гидроксида магния. Исследованы фазовый и элементный состав, морфология и коррозионные свойства формируемых слоев. Полученные данные указывают на улучшение антикоррозионных свойств формируемых покрытий: гидротермальная обработка магниевого сплава снижает ток коррозии и увеличивает модуль импеданса и поляризационное сопротивление более чем в десять раз по сравнению с необработанным сплавом МА8., Coatings in different alkaline solutions containing as well compounds of calcium and phosphorus were developed on the Mg–Mn–Ce (MA8) magnesium alloy by hydrothermal synthesis. The obtained coatings consist mainly of magnesium oxide and hydroxide. The phase and elemental composition, morphology and corrosive properties of the coatings were investigated. The data obtained indicate an improvement in the anticorrosion properties of the coatings under formation. It was shown that hydrothermal treatment of a magnesium alloy reduces the corrosion current and increases the impedance modulus and polarization resistance by more than ten times as compared with the bare MA8 alloy., №201(5) (2018)

Published

2018

17. HYDROTHERMAL SYNTHESIS, MORPHOLOGY AND PROPERTIES OF NANOCOMPOSITES BASED ON VANADIUM OXIDE V2O3@C

Author

Gorodetsky, R. S. and Zakharova, G. S.

Subjects

ГИДРОТЕРМАЛЬНЫЙ СИНТЕЗ, NANOCOMPOSITE V2O3@C, НАНОКОМПОЗИТ V2O3@C, HYDROTHERMAL SYNTHESIS

Abstract

В данной работе предложен новый гидротермальный метод получения нанокомпозита V2O3@C. Методом РФА проведена идентификация полученного образца. С помощью КР-спектроскопии и термогравиметрического анализа доказано наличие углерода в полученном композите V2O3@C. Морфология и размеры частиц изучены с помощью СЭМ. Площадь удельной поверхности и преимущественный диаметр пор рассчитаны методом БЭТ. In this work, a new hydrothermal method for obtaining nanocomposite V2O3@C was proposed. The XRD method was used to identify the sample obtained. With the help of Raman spectroscopy and thermogravimetric analysis, the presence of carbon in the resulting composite V2O3@C has been proved. Morphology and particle sizes were studied by SEM. The specific surface area and the preferred pore diameter were calculated by the BET method. Работа выполнена при финансовой поддержке РФФИ-ГФЕН Китая (проект № 16-53-53069).

Published

2017

18. ФАЗОВЫЕ ТРАНСФОРМАЦИИ В ТЕХНОЛОГИЯХ СИНТЕЗА И СОРБЦИОННЫЕ СВОЙСТВА ЦЕОЛИТОВ ИЗ УГОЛЬНОЙ ЗОЛЫ УНОСА

Subjects

гидротермальный синтез, стронций, цеолиты, zeolites, barium, сорбенты, ammonia, барий, hydrothermal synthesis, fly ash, sorbents, зола уноса, strontium, аммоний

Abstract

Угольная зола уноса генерируется во время сжигания угля на теплоэлектростанциях. Без утилизации этого промышленного отхода экологические проблемы резко возрастают. Опробованы технологии гидротермального синтеза цеолитов из золы, образующейся при сжигании углей на теплоэлектростанциях Печорского угольного бассейна, и выявлены зависимости условий эксперимента от физико-химических свойств конечного продукта. Показано, что синтез цеолитов из золы является первым этапом формирования керамических материалов (керамических мембран), определяя фундаментальность (значимость) этого направления исследования. Впервые для летучей золы углей Печорского угольного бассейна были изучены сорбционно-структурные характеристики и катионообменные свойства в отношении NH4 , Ba2 и Sr2., Coal fly ash is generated in the course of combustion of coal at thermal power plants. Environmental problems increase sharply without disposing that industrial waste. Technologies were tested of hydrothermal synthesis of zeolites from fly ash forming during combustion of coal at thermal power plants of the Pechora coal basin and dependences were identified of the experiment conditions on physical and chemical properties of the end product. It is demonstrated that synthesizing zeolites from fly ash is the first stage of forming ceramic materials (ceramic membranes), which defines the fundamental character (importance) of that area of studies. It was for the first time that sorption and structural characteristics and cation-exchange properties of fly ash from the Pechora basin coals were studied with respect to, Ba2 and Sr2., №4 (220) (2017)

Published

2016

19. Analysis of products formed in hydrothermal processing of yttrium nitrate and yttrium chloride

Author

Yudina, E. P., Frolova, A. V., Krivtsov, I. V., and Avdin, V. V.

Subjects

гидролиз солей иттрия, рентгеноструктурный анализ, УДК 546.05, гидротермальный синтез, УДК 544.77, сканирующая электронная микроскопия, ГИДРОЛИЗ СОЛЕЙ ИТТРИЯ, ГИДРОТЕРМАЛЬНЫЙ СИНТЕЗ, СЛОИСТЫЕ МАТЕРИАЛЫ, РЕНТГЕНОСТРУКТУРНЫЙ АНАЛИЗ, СКАНИРУЮЩАЯ ЭЛЕКТРОННАЯ МИКРОСКОПИЯ, X-ray diffraction analysis, hydrothermal synthesis, layered materials, ГРНТИ 31.15, 539.26 [УДК 544], hydrolysis of yttrium salts, scanning electron microscopy, слоистые материалы

Abstract

The investigation of the effect of initial salt counter-ion on the result of hydrothermal processing of yttrium salts is presented. Powder X-ray diffraction analysis and scanning electron microscopy have been used to characterize the properties of the products. It has been established that 3–6 m crystals of Y2(OH)5.14(NO3)0.86·H2O structure are formed from yttrium nitrate and 200–500 nm crystals of Y2(OH)4.86Cl1.14·1.07H2O structure are formed from yttrium chloride. В работе представлено исследование влияние природы противоиона исходной соли на результат гидротермальной обработки солей иттрия. Для изучения свойств полученных продуктов использовались сканирующая электронная микроскопия и порошковый рентгеноструктурный анализ. Установлено, что из нитрата иттрия об- разуются кристаллы размером 3–6 мкм с составом Y2(OH)5,14(NO3)0,86·H2O, а из хлорида иттрия – кристаллы размером 200–500 нм с составом Y2(OH)4,86Cl1,14·1,07H2O. E.P. Yudina, South Ural State University, Chelyabinsk, Russian Federation, yudinae@inbox.ru A.V. Frolova, South Ural State University, Chelyabinsk, Russian Federation, aleksandrai@bk.ru I.V. Krivtsov, South Ural State University, Chelyabinsk, Russian Federation, zapasoul@gmail.com V.V. Avdin, South Ural State University, Chelyabinsk, Russian Federation, v.avdin@mail.ru. родопользования, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: yudinae@inbox.ru Фролова Александра Владимировна – лаборант, кафедра экологии и природопользования, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: aleksandrai@bk.ru Кривцов Игорь Владимирович – кандидат химических наук, научный сотрудник научно- образовательного центра «Нанотехнологии», Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: zapasoul@gmail.com Авдин Вячеслав Викторович – доктор химических наук, профессор, декан химического факультета, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: v.avdin@mail.ru

Published

2015

20. Preparation and properties of zirconium tungstate with anomalous thermal characteristics

Subjects

negative thermal expansion, hydrothermal synthesis, вольфрамат циркония, гидротермальный синтез, тепловое расширение, отрицательный коэффициент, фазовые превращения, zirconium tungstate, phase transformations, металлокерамика, cermet

Abstract

Актуальность работы обусловлена недостатком систематических исследований структурно-фазовых превращений вольфрамата циркония при повышении температуры. Цель работы: изучение структуры и свойств вольфрамата циркония, полученного гидротермальным синтезом. Методы исследования: высокотемпературный in situ рентгенофазный и рентгеноструктурный анализы; уточнение структуры методом Ритвельда проводилось в программе TOPAS v.4.2 (Bruker); термогравиметрическая дифференциально-сканирующая калориметрия, растровая электронная микроскопия, просвечивающая электронная микроскопия. Результаты: Показано, что вольфрамат циркония состоит из вытянутых частиц, имеющих собственную блочную структуру. Полученный материал стабилен в температурном диапазоне от 25 до 540 °С. Повышение температуры инициирует изменение структуры, приводящее к разложению ZrW2O8 на ZrO2 и WO3. Вольфрамат циркония, полученный гидротермальным синтезом, имеет отрицательный коэффициент теплового расширения от 25 до 750 °С. The main aim of the study: The actuality of the discussed issue is caused by the lack of systematic studies of structural phase transformations of zirconium tungstate at temperature increase. The methods used in the study:High temperature in situ X-ray analysis, refinement of the structure by the Rietveld method using TOPAS v.4.2 (Bruker) software, thermogravimetric differential scanning calorimetry. The results: The morphology of the material was represented as rod-shaped particles having a block structure. The ZrW2O8 synthesized was kinetically stable from 25 to 540 °C. Temperature increase has initiated structural change which resulted decomposition of ZrW2O8 into ZrO2 and WO3. The ZrW2O8 synthesized demonstrated a negative thermal expansion behavior from 25 to 750 °C.

Published

2014