Order results by:
| Issue | Title | |
| Vol 3, No 4 (2012) | Differences in physical and chemical properties of vanadium oxide nanomaterials synthesized by hydrothermal and microwave-hydrothermal meth | Abstract similar documents |
| S. V. Balakhonov, V. K. Ivanov, A. E. Barantchikov, B. R. Churagulov | ||
| "... морфологию продуктов в процессе гидротермального и гидротермально-микроволнового синтеза наноматериалов на ..." | ||
| Vol 3, No 5 (2012) | Ceramic and composite nanomaterials based on calcium orthophosphates | Abstract similar documents |
| A. A. Afonko, S. A. Kirillova, V. I. Almjashev | ||
| "... of parameters of ultrasonic, hydrothermal and thermal treatment on the properties of the synthesis products ..." | ||
| Vol 14, No 1 (2023) | Synthesis and thermal behavior of KCe2(PO4)3, a new full-member in the AIMIV2 (PO4)3 family | Abstract PDF (Eng) similar documents |
| T. O. Kozlova, D. N. Vasilyeva, D. A. Kozlov, M. A. Teplonogova, A. E. Baranchikov, N. P. Simonenko, V. K. Ivanov | ||
| "... Hydrothermal treatment of nanoscale amorphous ceric phosphate gel in KOH aqueous solutions ..." | ||
| Vol 15, No 6 (2024) | Intermetallic compounds obtained from Me3Ge2O5(OH)4 (Me = Mg, Ni, Fe, Co) phyllogermanates: synthesis of single-phase precursors | Abstract PDF (Eng) similar documents |
| E. K. Khrapova, A. A. Ivanova, D. A. Kirilenko, A. A. Krasilin | ||
| "... . In particular, Co2+ and Fe2+ oxidation in hydrothermal conditions grants additional experimental challenge. Here ..." | ||
| Vol 3, No 2 (2012) | Aluminum and antimony-doped zinc oxide nanorod arrays synthesized on zinc foil by hydrothermal route | Abstract similar documents |
| A. I. Gavrilov, A. N. Baranov, B. R. Churagulov, B. P. Mihaylov | ||
| "... obtained via hydrothermal (HT) method. It is established that the optimal synthesis parameters (T = 180 ° C ..." | ||
| Vol 14, No 2 (2023) | Formation of a 10 ˚A phase with halloysite structure under hydrothermal conditions with varying initial chemical composition | Abstract PDF (Eng) similar documents |
| N. A. Leonov, D. A. Kozlov, D. A. Kirilenko, N. A. Bert, A. O. Pelageikina, A. A. Nechitailov, M. B. Alikin, A. A. Krasilin | ||
| "... was synthesized under hydrothermal conditions (220 C, 2 MPa, 96 h). Particles of plate-like morphology with av ..." | ||
| Vol 2, No 4 (2011) | Formation of nanoparticles Cr2O3 in hydrothermal conditions | Abstract similar documents |
| A. N. Bugrov, O. V. Almjasheva | ||
| "... and crystallization of Cr2O3-H2O system under thermal and hydrothermal treatment. Parameters of hydrothermal treatment ..." | ||
| Vol 14, No 1 (2023) | A comparative study of photocatalytic degradation of Xylenol Orange dye under natural sunlight over ZnO nanoparticles synthesized via mechanochemical and hydrothermal assistance routes | Abstract PDF (Eng) similar documents |
| Y. D. Kaldante, M. G. Chaskar | ||
| "... Current work confers mechanochemical and hydrothermal syntheses of ZnO, its characterization ..." | ||
| Vol 14, No 2 (2023) | Pyrochlore phase in the Bi2O3–Fe2O3–WO3–(H2O) system: its formation by hydrothermal synthesis in the low-temperature region of the phase diagram | Abstract PDF (Eng) similar documents |
| M. S. Lomakin, O. V. Proskurina, V. V. Gusarov | ||
| "... phase (hereinafter BFWO) formation in the Bi2O3–Fe2O3–WO3–(H2O) system under the hydrothermal syn thesis ..." | ||
| Vol 14, No 3 (2023) | Influence of the composition of the BiPO4–BiVO4 system on the phase formation, morphology, and properties of nanocrystalline composites obtained under hydrothermal conditions | Abstract PDF (Eng) similar documents |
| O. V. Proskurina, I. D. Chetinel, A. S. Seroglazova, V. V. Gusarov | ||
| "... BiPO4/BiVO4 nanocrystalline composites were synthesized under hydrothermal conditions ..." | ||
| Vol 15, No 2 (2024) | Ultrasonic-assisted hydrothermal synthesis of nanoscale double ceric phosphates | Abstract PDF (Eng) similar documents |
| T. O. Kozlova, E. D. Sheichenko, D. N. Vasilyeva, D. A. Kozlov, I. V. Kolesnik, I. V. Tronev, M. A. Teplonogova, A. E. Baranchikov, V. K. Ivanov | ||
| "... The combination of ultrasonic exposure on ceric phosphate gels with subsequent hydrothermal ..." | ||
| 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 | ||
| "... определены морфологические и размерные параметры частиц нанопорошка ZrO2, синтезированного в гидротермальных ..." | ||
| Vol 2, No 3 (2011) | Synthesis and physical and chemical properties of lithiated nanowhiskers based on vanadium oxides | Abstract similar documents |
| S. V. Balakhonov, D. S. Luchinkin, M. V. Efremova, B. Churagulov, Yu. D. Tretyakov | ||
| "... В настоящей работе гидротермальным методом получены «чистые» и литированные нановискеры на основе ..." | ||
| Vol 3, No 4 (2012) | Features of phase formation in the ZrO2-TiO2 system under hydrothermal conditions | Abstract similar documents |
| A. K. Vasilevskaya, O. V. Almjasheva | ||
| "... системе ZrO2—TiO2 в гидротермальных условиях. Показано, что формирование фазы (Zr,Ti)2O4 с ..." | ||
| 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 | ||
| "... В гидротермальных условиях получены наночастицы на основесистемыZrO2-Gd2O3.Показано,чтовобласти ..." | ||
| Vol 16, No 2 (2025) | Phase formation in the Na2O-Bi2O3-Fe2O3-MoO3-(H2O) system | Abstract PDF (Eng) similar documents |
| M. S. Lomakin | ||
| "... The effect of the hydrothermal fluid pH on the chemical and phase composition, as well as the size ..." | ||
| Vol 15, No 2 (2024) | Pyrochlore phase in the Bi2O3‒Fe2O3‒WO3‒(H2O) system: its stability field in the low-temperature region of the phase diagram and thermal stability | Abstract PDF (Eng) similar documents |
| M. S. Lomakin, O. V. Proskurina, A. A. Levin, V. N. Nevedomskiy | ||
| "... composition formed in the Bi2O3–Fe2O3–WO3 system under hydrothermal conditions at a temperature of T = 200◦C ..." | ||
| Vol 15, No 3 (2024) | Formation of chrysotile nanotubes with titania in the internal channel | Abstract PDF (Eng) similar documents |
| E. N. Gatina, T. P. Maslennikova | ||
| "... of hydrosilicate nanotubes under hydrothermal conditions. The possibility of titanium ions to enter the crystal ..." | ||
| Vol 15, No 6 (2024) | Effect of synthesis method on the structural, conductive and sensor properties of NiO–In2O3 nanocomposites | Abstract PDF (Eng) similar documents |
| M. I. Ikim, V. F. Gromov, G. N. Gerasimov, V. G. Bekeshev, L. I. Trakhtenberg | ||
| "... by hydrothermal and impregnation methods are investigated and compared. The mixed oxide considered consists ..." | ||
| Vol 3, No 3 (2012) | Structural transformations in the ZrO2-Al2O3 nanocomposite by heating | Abstract similar documents |
| I. Kuchuk, O. Almjasheva | ||
| Vol 15, No 3 (2024) | The role of pH of the reaction medium in the formation of nanocrystalline phases in the Bi2O3-P2O5-H2O system | Abstract PDF (Eng) similar documents |
| D. P. Elovikov, A. A. Osminina | ||
| "... amorphous substances are produced. After hydrothermal treatment at 473 K in an aqueous-salt environment ..." | ||
| Vol 14, No 6 (2023) | Synthesis under hydrothermal conditions and structural transformations of nanocrystals in the LaPO4–YPO4–(H2O) system | Abstract PDF (Eng) similar documents |
| M. O. Enikeeva, O. V. Proskurina, E. Yu. Gerasimov, V. N. Nevedomskiy, V. V. Gusarov | ||
| "... under hydrothermal conditions at 230C, depending on isothermal holding times (2 hours, 7 days and 28 ..." | ||
| Vol 10, No 6 (2019) | Effect of heterogeneous inclusions on the formation of TiO2 nanocrystals in hydrothermal conditions | Abstract PDF (Eng) similar documents |
| V. V. Zlobin, A. A. Krasilin, O. V. Almjasheva | ||
| "... during hydrothermal synthesis and photocatalytic properties of synthesized particles were studied. Pre ..." | ||
| Vol 7, No 3 (2016) | Synthesis and study of anhydrous lanthanide orthophosphate (Ln = La, Pr, Nd, Sm) nanowhiskers | Abstract PDF (Eng) similar documents |
| K. I. Bryukhanova, G. E. Nikiforova, K. S. Gavrichev | ||
| "... The effect of hydrothermal synthetic conditions on the obtaining of lanthanide orthophosphates ..." | ||
| Vol 6, No 4 (2015) | Structural hierarchy of NH4V3O7 particles prepared under hydrothermal conditions | Abstract PDF (Eng) similar documents |
| G. S. Zakharova, Y. Liu, I. S. Popov, A. N. Enyashin | ||
| "... structure among the series of known ammonium vanadates. Here, a new hydrothermal synthesis of the product ..." | ||
| Vol 13, No 4 (2022) | Photocatalytic activity of Hibiscus leaf extract mediated ZnO nanoparticles by hydrothermal method | Abstract PDF (Eng) similar documents |
| S. R. Mariyal, G. Nedunchezhian, D. B. Anburaj, S. J. Gnanamuthu | ||
| "... Hibiscus leaf extract mediated ZnO nanoparticles have been prepared through a hydrothermal method ..." | ||
| 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 nanostructures based on zirconium dioxide under hydrothermal conditions is the chemical prehistory ..." | ||
| Vol 7, No 1 (2016): Special Issue: Proceedings of the 12th Biennial International Conference “Advanced Carbon Nanostructures” (ACNS’2015) | Modification of the mechanical properties of zirconium dioxide ceramics by means of multiwalled carbon nanotubes | Abstract PDF (Eng) similar documents |
| E. A. Lyapunova, S. V. Uvarov, M. V. Grigoriev, S. N. Kulkov, O. B. Naimark | ||
| "... ) and metallic silver as a plastic binder was produced by hydrothermal synthesis from ceramic precursor ..." | ||
| Vol 16, No 2 (2025) | Application of carbon nanomaterials in semiconductor electronics | Abstract PDF (Eng) similar documents |
| R. V. Shalayev, V. N. Varyukhin | ||
| Vol 2, No 4 (2011) | Evaluation criteria of energy properties of surface of nanomaterials | Abstract similar documents |
| M. A. Frolova, A. S. Tutygin, A. M. Aizenstadt, V. S. Lesovik, T. A. Makhova, T. A. Pospelova | ||
| Vol 13, No 6 (2022) | Thermal stability of the waylandite-structured nanocrystalline BiAl3(PO4)2(OH)6 | Abstract PDF (Eng) similar documents |
| D. P. Elovikov, O. V. Proskurina, M. V. Tomkovich, V. L. Ugolkov, V. V. Gusarov | ||
| "... under hydrothermal conditions at 200 °C, 7 MPa and pH 7, and characterized by X-ray diffractometry ..." | ||
| Vol 15, No 6 (2024) | Phase formation and thermal analysis in the LaPO4–GdPO4–H2O system | Abstract PDF (Eng) similar documents |
| M. O. Enikeeva, K. A. Zhidomorova, D. P. Danilovich, V. N. Nevedomskiy, O. V. Proskurina, V. V. Gusarov | ||
| "... Structural transformations of nanocrystals in the LaPO4–GdPO4–(H2O) system under hydrothermal ..." | ||
| Vol 11, No 6 (2020) | ZnO nanoparticles as solar photocatalysts: Synthesis, effect of annealing temperature and applications | Abstract PDF (Eng) similar documents |
| S. Sathya, J. Vijayapriya, K. Parasuraman, D. Benny Anburaj, S. Joshua Gnanamuthu | ||
| "... ZnO nanoparticles were prepared by a hydrothermal method from the source materials of Zinc ..." | ||
| Vol 11, No 3 (2020) | Hydrothermal synthesis of CeO2 nanostructures and their electrochemical properties | Abstract PDF (Eng) similar documents |
| A. N. Bugrov, V. K. Vorobiov, M. P. Sokolova, G. P. Kopitsa, S. A. Bolshakov, M. A. Smirnov | ||
| "... specifically synthesized under hydrothermal conditions at elevated pressure (15 MPa), different alkali contents ..." | ||
| 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 | ||
| "... by varying hydrothermal conditions. X-ray diffraction, transmission electron microscopy, ultraviolet-visible ..." | ||
| Vol 16, No 1 (2025) | Peroxidase-like activity of photochromic PVP-stabilized tungsten oxide nanoparticles: assessment by independent chemiluminescent and colorimetric assays | Abstract PDF (Eng) similar documents |
| M. A. Popkov, E. D. Sheichenko, A. D. Filippova, I. V. Tronev, K. N. Novoselova, E. A. Trufanova, D. N. Vasilyeva, M. R. Protsenko, M. M. Sozarukova, A. E. Baranchikov, V. K. Ivanov | ||
| 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 | ||
| "... system, under hydrothermal conditions. The limiting content of Y2O3 in the nanocrystals based ..." | ||
| Vol 11, No 3 (2020) | Formation of Bi2WO6 nanocrystals under conditions of hydrothermal treatment | Abstract PDF (Eng) similar documents |
| A. S. Svinolupova, M. S. Lomakin, S. A. Kirillova, O. V. Almjasheva | ||
| "... Nanocrystalline Bi2WO6 was synthesized by means of hydrothermal treatment. It was shown ..." | ||
| Vol 11, No 2 (2020) | Influence of hydrothermal synthesis conditions on the composition of the pyrochlore phase in the Bi2O3–Fe2O3–WO3 system | Abstract PDF (Eng) similar documents |
| M. S. Lomakin, O. V. Proskurina, V. V. Gusarov | ||
| "... The paper deals with a study of the effect which the hydrothermal fluid pH has on the formation ..." | ||
| Vol 4, No 6 (2013) | Formation mechanism of GdFeO3 nanoparticles under the hydrothermal conditions | Abstract PDF (Eng) similar documents |
| E. A. Tugova, I. A. Zvereva | ||
| "... The formation mechanism of GdFeO3 nanoparticles by varying of the hydrothermal conditions has been ..." | ||
| Vol 3, No 4 (2012) | Morphology and dimensional parameters of boehmite nanocrystals obtained und | Abstract similar documents |
| S. A. Kirillova, A. V. Smirnov, B. A. Fedorov, A. A. Krasilin, A. N. Bugrov, K. G. Gareev, I. E. Gracheva, V. I. Almjashev | ||
| Vol 2, No 3 (2011) | Synthesis of aqueous sols of nanocrystalline ceria doped with gadolinia | Abstract similar documents |
| G. A. Gasymova, O. S. Ivanova, A. Ye. Baranchikov, A. B. Shcherbakov, V. K. Ivanov, Yu. D. Tretyakov | ||
| "... , полученных сочетанием анионитной и гидротермально-микроволновой обработки, существенно меньше размеров частиц ..." | ||
| Vol 5, No 5 (2014) | Formation mechanism of YFeO3 nanoparticles under the hydrothermal conditions | Abstract PDF (Eng) similar documents |
| V. I. Popkov, O. V. Almjasheva | ||
| "... obtained under hydrothermal conditions. The influence of the hydrothermal synthesis temperature ..." | ||
| Vol 6, No 5 (2015) | Heat-stimulated transformation of zirconium dioxide nanocrystals produced under hydrothermal conditions | Abstract PDF (Eng) similar documents |
| O. V. Almjasheva | ||
| Vol 15, No 1 (2024) | Sorption of polar and non-polar liquids by GO powders according to DSC experiments | Abstract PDF (Eng) similar documents |
| A. V. Kaplin, E. A. Eremina, M. V. Korobov | ||
| "... by hydrothermal synthesis. The effective reduction of the material was confirmed by XRD. The difference ..." | ||
| Vol 3, No 1 (2012) | Photon density of states in optical nanomaterials and control of energy levels of atoms | Abstract similar documents |
| R. Kh. Gainutdinov, M. A. Khamadeev, E. V. Zajtseva, M. Kh Salakhov | ||
| "... Обсуждается влияние среды оптических наноматериалов на характер взаимодействия атомов с ..." | ||
| Vol 15, No 4 (2024) | Phase formation of nanosized InGaZnO4 obtained by the sol-gel method with different chelating agents. | Abstract PDF (Eng) similar documents |
| G. M. Zirnik, A. S. Chernukha, D. A. Uchaev, I. A. Solizoda, S. A. Gudkova, N. S. Nekorysnova, D. A. Vinnik | ||
| Vol 4, No 1 (2013) | Life in science of academician Yu.D. Tretyakov | Abstract similar documents |
| E. A. Goodilin, E. A Eremina, A. V. Grigoryeva, A. R. Kaul, A. V. Lukashin, Yu. G. Metlin, V. I. Putlyaev, O. A. Shlyakhtin | ||
| Vol 3, No 2 (2012) | The catalytic action of vanadium and its oxide (V) in the oxidation processes of AIIIBV semiconductors | Abstract similar documents |
| I. Ya. Mittova, E. V. Tomina, A. A. Lapenko, B. V. Sladkopevtcev | ||
| Vol 11, No 6 (2020) | Formation of nanocrystals based on equimolar mixture of lanthanum and yttrium orthophosphates under microwave-assisted hydrothermal synthesis | Abstract PDF (Eng) similar documents |
| M. O. Enikeeva, O. V. Proskurina, D. P. Danilovich, V. V. Gusarov | ||
| "... The effect of hydrothermal-microwave treatment time at 180 ◦C on the phase composition ..." | ||
| 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 | ||
| "... in coprecipitated mixed hydroxides under hydrothermal conditions. A thermodynamic reason for this process is because ..." | ||
| Vol 15, No 6 (2024) | Biomedical applications of graphene-based nanomaterials in gene delivery, tissue engineering, biosensing and for the development antibacterial agents | Abstract PDF (Eng) similar documents |
| K. N. Semenov, S. V. Ageev, O. S. Shemchuk, G. O. Iurev, Abdelsattar O. E. Abdelhalim, I. V. Murin, P. K. Kozhukhov, A. V. Penkova, D. N. Maystrenko, O. E. Molchanov, V. V. Sharoyko | ||
| Vol 14, No 6 (2023) | Study of the electrical and electronic properties of crystalline molybdenum disulfide (MoS2-3R) semiconductor nano using alternating current (AC) measurements | Abstract PDF (Eng) similar documents |
| H. Alhussein, J. Q AlSharr, S. Othman, H. AlKhamisy | ||
| "... MoS2 nanostructures were prepared using the hydrothermal method by reacting ammonium ..." | ||
| Vol 10, No 3 (2019) | Structure and photoluminescent properties of TiO2:Eu3+ nanoparticles synthesized under hydro and solvothermal conditions from different precursors | Abstract PDF (Eng) similar documents |
| A. Yu. Zavialova, A. N. Bugrov, R. Yu. Smyslov, D. A. Kirilenko, T. V. Khamova, G. P. Kopitsa, C. Licitra, D. Rouchon | ||
| Vol 12, No 6 (2021) | The influence of condition of the monazite structured La0.9Y0.1PO4 nanocrystals sintering on thermal and mechanical properties of the material | Abstract PDF (Eng) similar documents |
| M. O. Enikeeva, O. V. Proskurina, E. S. Motaylo, D. P. Danilovich, V. V. Gusarov | ||
| "... properties has been determined. It was shown that the hydrothermal treatment of coprecipitated phosphates ..." | ||
| 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 | ||
| "... hydrothermal conditions. Annealing of ZrO2: 1 mol. Eu3+ nanoparticles made it possible to obtain a sample ..." | ||
| Vol 3, No 4 (2012) | Formation of Iron-magnesium nanoparticles under dehydration of coprecipitated magnesium and | Abstract similar documents |
| A. A. Komlev, S. Ilhan | ||
| Vol 1, No 1 (2010) | Nanoporous matrices NPG-7 and NPG-17 – opportunities of using in optical experiment | Abstract similar documents |
| O. V. Andreeva, I. E. Obyknovennaya | ||
| Vol 7, No 4 (2016) | Dynamic study of bismuth telluride quantum dot assisted titanium oxide for efficient photoelectrochemical performance | Abstract PDF (Eng) similar documents |
| Pallavi B. Patil, Vijay V. Kondalkar, Kishorkumar V. Khot, Chaitali S. Bagade, Rahul M. Mane, P. N. Bhosale | ||
| "... generated employing a two-step synthetic strategy, including a hydrothermal process and a potentiostatic ..." | ||
| Vol 14, No 5 (2023) | Magnetic nanoparticles in solid matrices: formation and fixation of structures, induced by magnetic field | Abstract PDF (Eng) similar documents |
| I. V. Pleshakov, A. A. Alekseev, E. E. Bibik, V. I. Dudkin, T. Yu. Kudryashova, E. K. Karseeva, T. A. Kostitsyna, E. A. Medvedeva | ||
| "... наноматериалов, так и для более практических исследований, например, направленных на решение некоторых ..." | ||
| Vol 11, No 2 (2020) | Electrochemical investigation of hydrothermally induced MnCo2S4 nanoparticles as an electrode material for high performance supercapacitors | Abstract PDF (Eng) similar documents |
| M. Dakshana, S. Meyvel, M. Malarvizhi, P. Sathya | ||
| "... Ternary spinel MnCo2S4 spherical nanoparticles are prepared through a simple one step hydrothermal ..." | ||
| Vol 15, No 4 (2024) | olloidal chemical properties of the sol V2O5 · nH2O. | Abstract PDF (Eng) similar documents |
| H. Lwin, O. V. Yarovaya | ||
| "... дисперсной системе и диапазон pH, обеспечивающий стабильность золя, соответствуют фазовой диаграмме ванадия ..." | ||
| Vol 15, No 2 (2024) | Synthesis of redox-active Ce0.75Bi0.15Tb0.1F3 nanoparticles and their biocompatibility study in vitro | Abstract PDF (Eng) similar documents |
| N. N. Chukavin, D. D. Kolmanovich, A. D. Filippova, M. A. Teplonogova, V. K. Ivanov, A. L. Popov | ||
| "... Наночастицы фторида церия (CeF3), являясь уникальным нанозимом и редокс-активным наноматериалом ..." | ||
| Vol 16, No 3 (2025) | Boron doped small fullerenes C20, C24, C28 as a basis for the formation of heterostructures | Abstract PDF (Eng) similar documents |
| A. R. El Zanin, S. V. Boroznin, I. V. Zaporotskova | ||
| "... преломления рассматриваемых наноматериалов путем допирования различными концентрациями атомов бора, что ..." | ||
| Vol 9, No 3 (2018) | On an adsorption/photocatalytic performance of nanotubular Mg3Si2O5(OH)4/TiO2 composite | Abstract PDF (Eng) similar documents |
| A. A. Krasilin, I. S. Bodalyov, A. A. Malkov, E. K. Khrapova, T. P. Maslennikova, A. A. Malygin | ||
| "... by hydrothermal treatment with one or more subsequent cycles of TiCl4 treatment and vapor-phase hydrolysis ..." | ||
| 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 | ||
| "... synthesized by solution combustion, hydrothermal synthesis and heat treatment in air of the precipitated ..." | ||
| Vol 5, No 2 (2014) | Thermodynamic instability of compound and formation of nanosized particles nearby the critical point of phase generating media | Abstract PDF (Eng) similar documents |
| A. N. Kovalenko, N. V. Kalinin | ||
| "... and other oxygen-containing gas media, as well as in hydrothermal synthesis employed in its classical ..." | ||
| 1 - 68 of 68 Items | ||
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