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| Issue | Title | |
| Vol 15, No 6 (2024) | Scandium modified zirconia extracted from red mud as a waste of alumina production | Abstract PDF (Eng) similar documents |
| L. A. Pasechnik, I. S. Medyankina, D. I. Pereverzev, A. Yu. Chufarov, A. Yu. Suntsov | ||
| "... , scandium-zirconium concentrate, extracted by hydrolysis from leachate after carbonate treatment of red mud ..." | ||
| Vol 1, No 1 (2010) | Size, morphology and structure of the particles of zirconia nanopowder obtained under hydrothermal conditions | Abstract similar documents |
| O. V. Almjasheva, B. A. Fedorov, A. V. Smirnov, V. V. Gusarov | ||
| Vol 12, No 4 (2021) | The effect of hydrolysis duration on the phase composition, texture, aggregation and agglomeration of ZrO2 nanoparticles | Abstract PDF (Eng) similar documents |
| Sh. O. Omarov | ||
| "... циркония, гидролизующегося с образованием m-ZrO2. Установлена возможность регулирования фазового состава ..." | ||
| Vol 12, No 6 (2021) | Phase equilibria and materials in the TiO2–SiO2–ZrO2 system: a review | Abstract PDF (Eng) similar documents |
| S. A. Kirillova, V. I. Almjashev, V. L. Stolyarova | ||
| Vol 15, No 6 (2024) | Chemical looping methane dry reforming over Ni-containing modified ceria-zirconia | Abstract PDF (Eng) similar documents |
| E. Smal, V. Fedorova, K. Valeev, A. Hassan, E. Gerasimov, M. Simonov | ||
| "... Modified ceria-zirconia oxides were prepared in supercritical fluids in flow-type installation. Ni ..." | ||
| Vol 16, No 6 (2025) | Synthesis, structure and properties of composite proton-conducting membranes based on a Nafion-type perfluorinated copolymer with Zr1−xYxO2−0.5x nanoparticles | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, G. N. Gubanova, O. N. Primachenko, I. V. Gofman, E. M. Ivan’kova, E. N. Popova, D. A. Kirilenko, V. K. Lavrentyev, E. N. Vlasova, S. V. Kononova | ||
| "... zirconia-based nanoparticles, solvothermal synthesis offers the most promise in terms of increasing ..." | ||
| Vol 4, No 6 (2013) | Effect of hydrothermal synthesis conditions on the morphology of ZrO2 nanoparticles | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, O. V. Almjasheva | ||
| "... of the starting materials. The possibility of varying the synthetic parameters to obtain a zirconia-based material ..." | ||
| Vol 10, No 6 (2019) | Phosphors with different morphology, formed under hydrothermal conditions on the basis of ZrO2:Eu3+ nanocrystallites | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, R. Yu. Smyslov, T. V. Khamova, D. A. Kirilenko, I. A. Rodionov | ||
| "... of the Zr0.98Eu0.02O2 nanophosphors. The Eu3+ content in a zirconia monoclinic lattice, remained constant ..." | ||
| Vol 11, No 6 (2020) | Structure of nanoparticles in the ZrO2–Y2O3 system, as obtained under hydrothermal conditions | Abstract PDF (Eng) similar documents |
| A. I. Shuklina, A. V. Smirnov, B. A. Fedorov, S. A. Kirillova, O. V. Almjasheva | ||
| Vol 13, No 1 (2022) | Synthesis and characterization of zirconia nanorods as a photo catalyst for the degradation of methylene blue dye | Abstract PDF (Eng) similar documents |
| R. Jeba, S. Radhika, C. M. Padma, X. Ascar Davix | ||
| Vol 9, No 6 (2018) | Solid-phase interaction in ZrO2–Fe2O3 nanocrystalline system | Abstract PDF (Eng) similar documents |
| S. A. Kirillova, O. V. Almjasheva, V. V. Panchuk, V. G. Semenov | ||
| Vol 5, No 4 (2014) | Introduction of scandium, zirconium and hafnium into aluminum alloys. Dispersion hardening of intermetallic compounds with nanodimensional particles | Abstract PDF (Eng) similar documents |
| V. M. Skachkov, L. A. Pasechnik, S. P. Yatsenko | ||
| Vol 9, No 3 (2018) | Phase composition and photoluminescence correlations in nanocrystalline ZrO2:Eu3+ phosphors synthesized under hydrothermal conditions | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, R. Yu. Smyslov, A. Yu. Zavialova, D. A. Kirilenko, D. V. Pankin | ||
| "... Luminescent zirconia nanoparticles with europium ion content 1 and 10 mol.% were synthesized under ..." | ||
| Vol 9, No 4 (2018) | Formation mechanism of core-shell nanocrystals obtained via dehydration of coprecipitated hydroxides at hydrothermal conditions | Abstract PDF (Eng) similar documents |
| O. V. Almjasheva, A. A. Krasilin, V. V. Gusarov | ||
| Vol 10, No 2 (2019) | The influence of chemical prehistory on the structure, photoluminescent properties, surface and biological characteristics of Zr0:98Eu0:02O1:99 nanophosphors | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, R. Yu. Smyslov, A. Yu. Zavialova, G. P. Kopitsa | ||
| Vol 2, No 2 (2011) | Formation under hydrothermal conditions and structural features of nanoparticles based on the system ZrO2 – Gd2O3 | Abstract similar documents |
| M. V. Tomkovich, E. R. Andrievskaya, V. V. Gusarov | ||
| Vol 3, No 5 (2012) | C-ZrO2 nanocomposite based on thermally expanded graphite | Abstract similar documents |
| A. Orlova, V. V. Sokolov, J. A. Kukushkina, O. V. Almjasheva | ||
| "... диоксида циркония в комбинации с терморасширенным графитом. ..." | ||
| Vol 9, No 4 (2018) | High-temperature synthesis of finely dispersed oxide materials and C12A7:e electrides in carbon nanoreactor conditions | Abstract PDF (Eng) similar documents |
| A. M. Volodin, A. F. Bedilo, V. O. Stoyanovskii, V. I. Zaikovskii | ||
| "... that such coating can stabilize the size of the oxide core nanoparticles for alumina, zirconia, calcium ..." | ||
| Vol 10, No 4 (2019) | The minimum size of oxide nanocrystals: phenomenological thermodynamic vs crystal-chemical approaches | Abstract PDF (Eng) similar documents |
| O. V. Almjasheva, N. A. Lomanova, V. I. Popkov, O. V. Proskurina, E. A. Tugova, V. V. Gusarov | ||
| "... hydroxides. Aluminum and iron oxides, titania and zirconia, cobalt ferrite, AFeO3 ferrites (A = Bi, RE ..." | ||
| 1 - 19 of 19 Items | ||
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