Synthesis of nanopowders by the glycine-nitrate method in the In-Dy-O system
| Parent link: | Chimica Techno Acta.— .— Ekaterinburg: Ural Federal University Vol. 10, iss. 3.— 2023.— Article number 202310303, 6 p. |
|---|---|
| Yhteisötekijä: | |
| Muut tekijät: | , , , |
| Yhteenveto: | Title screen We investigated the feasibility of synthesizing nanopowders containing indium and dysprosium oxides by the glycine-nitrate method. It was found that the glycine-nitrate method significantly reduces the content of the indium component in the resulting mixture of indium and dysprosium oxides. In this case, intensive absorption of carbon dioxide from the air by the formed particles induces formation of amorphous carbonaceous compounds, which decompose only under high-temperature treatment (>900 °C). This prevents compaction of powders synthesized by the glycine-nitrate method. Comparison of the characteristics of powders containing indium oxides and dysprosium, synthesized by the glycine-nitrate method and by the method of co-precipitation of indium and dysprosium hydroxides from chloride solutions, showed the advantage of the co-precipitation method in the pressing of powders Текстовый файл |
| Kieli: | englanti |
| Julkaistu: |
2023
|
| Aiheet: | |
| Linkit: | https://doi.org/10.15826/chimtech.2023.10.3.03 |
| Aineistotyyppi: | Elektroninen Kirjan osa |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=676943 |
Samankaltaisia teoksia
Thermal destruction of coprecipitated hydroxides of indium and dysprosium
Tekijä: Malinovskaya T. D. Tatjyana Dmitrievna
Julkaistu: (2019)
Tekijä: Malinovskaya T. D. Tatjyana Dmitrievna
Julkaistu: (2019)
Extraction processing of concentrated solutions of uranyl nitrate with high impurities content
Julkaistu: (2007)
Julkaistu: (2007)
Facile Synthesis of La-modified CeO2 with Microwave Method for CO2 Adsorption
Julkaistu: (2024)
Julkaistu: (2024)
A Comprehensive Study of Synthesis and Analysis of Anisotropic Iron Oxide and Oxyhydroxide Nanoparticles
Julkaistu: (2022)
Julkaistu: (2022)
Measuring the Changes in Copper Nanopowder Conductivity during Heating as a Method for Diagnosing its Thermal Stability
Julkaistu: (2018)
Julkaistu: (2018)
Исследование размеров частиц оксалата кальция, полученных осаждением из азотнокислых растворов
Julkaistu: (2015)
Julkaistu: (2015)
Механизм соосаждения америция на оксалате кальция
Tekijä: Софронов В. Л. Владимир Леонидович
Julkaistu: (2024)
Tekijä: Софронов В. Л. Владимир Леонидович
Julkaistu: (2024)
Heating copper and aluminium nanopowders in mixtures with aluminium and silicon oxides in air
Tekijä: Amelkovich Yu. A. Yuliya Alexandrovna
Julkaistu: (2006)
Tekijä: Amelkovich Yu. A. Yuliya Alexandrovna
Julkaistu: (2006)
Passivation of aluminum nanopowders for use in energetic materials
Julkaistu: (2015)
Julkaistu: (2015)
Plasma Dynamic Synthesis of Metal Oxides in a Carbon Dioxide Medium in the Ti–O and Fe–O Systems
Julkaistu: (2023)
Julkaistu: (2023)
Aluminium nanopowder oxidation in liquid water when heating
Tekijä: Godymchuk (Godimchuk) A. Yu. Anna Yuryevna
Julkaistu: (2007)
Tekijä: Godymchuk (Godimchuk) A. Yu. Anna Yuryevna
Julkaistu: (2007)
Impact of Hyperspeed Iron Microparticles on Light Transmission of Quartz Glasses with Protective In-Sn-O Coating in the Ultraviolet Range
Julkaistu: (2024)
Julkaistu: (2024)
Synthesis and characterization of zinc oxide nanopowder
Julkaistu: (2021)
Julkaistu: (2021)
Pulsed Plasma-Chemical Modification of SiO2 Nanopowder by ZnxOy Nanoparticles
Julkaistu: (2021)
Julkaistu: (2021)
Nanopowders produced by electrical explosion ofaluminum wires in water
Tekijä: Ilyin A. P. Aleksandr Petrovich
Julkaistu: (2007)
Tekijä: Ilyin A. P. Aleksandr Petrovich
Julkaistu: (2007)
Change in thermochemical properties of aluminum nanopowders upon irradiation with electron beam and microwave
Tekijä: Badamasi N. M.
Julkaistu: (2024)
Tekijä: Badamasi N. M.
Julkaistu: (2024)
Effect of the concentration of the starting reagents and the design of the reaction chamber on the morphology and phase composition of the CuxOy@SiO2 nanocomposite synthesized by the pulsed plasma-chemical method
Julkaistu: (2021)
Julkaistu: (2021)
Non-isothermal oxidation of coal with Ce(NO3)3 and Cu(NO3)2 additives
Tekijä: Larionov K. B. Kirill Borisovich
Julkaistu: (2019)
Tekijä: Larionov K. B. Kirill Borisovich
Julkaistu: (2019)
Graph-analytic engineering method of corrosion current calculation in multielectrode system
Julkaistu: (2007)
Julkaistu: (2007)
Special Features of the Structure of Copper-containing Products of Plasma Dynamic Synthesis
Julkaistu: (2015)
Julkaistu: (2015)
Influence of the Heating Rate on the Activation of Coal and Lignite Oxidation by Copper Nitrate
Julkaistu: (2020)
Julkaistu: (2020)
Separation of silicon-iron-copper-nickel concentrate by fluorammonium method into individual oxides
Tekijä: Dyachenko A. N. Alexander Nikolaevich
Julkaistu: (2007)
Tekijä: Dyachenko A. N. Alexander Nikolaevich
Julkaistu: (2007)
Agricultural waste derived silicon carbide composite nanopowders as efficient coelectrocatalysts for water splitting
Julkaistu: (2024)
Julkaistu: (2024)
Influence of Cu(NO3)2 Activator and Gas Composition on the Thermal Decomposition of Coal and Lignite
Julkaistu: (2020)
Julkaistu: (2020)
Al–Cu Powder Oxidation Kinetics during Heating in Air
Tekijä: Korotkikh A. G. Aleksandr Gennadievich
Julkaistu: (2022)
Tekijä: Korotkikh A. G. Aleksandr Gennadievich
Julkaistu: (2022)
Investigation of the Characteristics of AluminumPowder Obtained in Argon with Addition of Oxygen
Julkaistu: (2012)
Julkaistu: (2012)
Investigating aging processes and characterization of nanodispersed Cu-Al layered double hydroxides produced by non-equilibrium electrochemical oxidation
Julkaistu: (2024)
Julkaistu: (2024)
Intensification of the Oxidation of Lignite and Coal by an Activating Additive of Fe(NO3)2
Julkaistu: (2019)
Julkaistu: (2019)
Intensification of bituminous coal and lignite oxidation by copper-based activating additives
Julkaistu: (2021)
Julkaistu: (2021)
The peculiar alterations of the optical and mechanical characteristics of the quartz glass plates with a reinforcing coating under the collision with a hyper-velocity flux of microparticles
Julkaistu: (2024)
Julkaistu: (2024)
Nanostructured silica-supported gold: Effect of nanoparticle size distribution and electronic state on its catalytic properties in oxidation reactions
Julkaistu: (2021)
Julkaistu: (2021)
Flow Synthesis of Iodonium Trifluoroacetates through Direct Oxidation of Iodoarenes by Oxone®
Julkaistu: (2019)
Julkaistu: (2019)
Production of aluminium oxyhydroxides by various methods
Julkaistu: (2014)
Julkaistu: (2014)
Plasma-Chemical Synthesis of Nanostructured Oxide Compounds for Accident Tolerant Fuel
Julkaistu: (2022)
Julkaistu: (2022)
Synthesis and Investigation of the Properties of Al2O3–Y2O3 Powders Using Nanospray Drying
Julkaistu: (2022)
Julkaistu: (2022)
Synthesis of silicon carbide using an AC atmospheric-pressure arc reactor
Julkaistu: (2024)
Julkaistu: (2024)
Application of fluoride salt systems for obtaining titanium by the method of electrolysis
Tekijä: Karelin V. A. Vladimir Aleksandrovich
Julkaistu: (2007)
Tekijä: Karelin V. A. Vladimir Aleksandrovich
Julkaistu: (2007)
Scientific research on nanopowders diagnostics
Julkaistu: (2011)
Julkaistu: (2011)
Исследование процесса плазмохимического синтеза модельных оксидных композиций, имитирующих оксидное уран-ториевое дисперсионное ядерное топливо
Tekijä: Зубов В. В. Виктор Вячеславович
Julkaistu: (2024)
Tekijä: Зубов В. В. Виктор Вячеславович
Julkaistu: (2024)
Behavior of ZnO nanoparticles in glycine solution: pH and size effect on aggregation and adsorption
Julkaistu: (2020)
Julkaistu: (2020)