Engineering Profile Laboratory 2

51. The Influence of Variations in Synthesis Conditions on the Phase Composition, Strength and Shielding Characteristics of CuBi₂O₄ Films
52. Synthesis and investigation of the applicability of Fe₃O₄/ZnO nanoparticles as a basis for hyperthermic studies
53. Structure and magnetic properties of FeCo nanotubes obtained in pores of ion track templates
54. Low-temperature sintering of zirconia-based ceramic composites for capacitor applications
55. Study of Phase Transformations in ZrO₂ Ceramics Stabilized by Y₂O₃ and Their Role in Changing Strength Characteristics and Heat Resistance
56. The effect of mechanical milling and two-step sintering technique on the microstructure, microhardness, strength, and dielectric properties of Sm₂Zr₂O₇ ceramics
57. Influence of Eu³⁺ doping on the microstructure and nanoporous transformation of BaGa₂O₄ ceramics
58. Boron and gadolinium loaded fe₃o₄ nanocarriers for potential application in neutron cancer therapy
59. Synthesis of Gd-DTPA Carborane-Containing Compound and Its Immobilization on Iron Oxide Nanoparticles for Potential Application in Neutron Capture Therapy
60. Electrodeposited NiFe films for electronic applications: structure and magnetic properties
61. OPTIMIZATION OF THE ELECTROCHEMICAL DEPOSITION METHOD FOR PREPARATION MAGNETIC/NON-MAGNETIC MULTILAYERED STRUCTURES
62. A study on the applicability of nife₂o₄ nanoparticles as the basis of catalysts for the purification of aqueous media from pollutants
63. Effect of doping of Ce^4+/3+ on optical, strength and shielding properties of (0.5-x)TeO₂-0.25MoO-0.25Bi₂O₃-xCeO₂ glasses
64. Effect of Magnesium Oxide Dopant on the Structural, Strength and Thermophysical Properties of Neodymium Zirconate Ceramics
65. Fe₂o₃ nanoparticles doped with gd: Phase transformations as a result of thermal annealing
66. Investigation of the Effect of PbO Doping on Telluride Glass Ceramics as a Potential Material for Gamma Radiation Shielding
67. Investigation of the Efficiency of Shielding Gamma and Electron Radiation Using Glasses Based on TeO₂-WO₃-Bi₂O₃-MoO₃-SiO to Protect Electronic Circuits from the Negative Effects of Ionizing Radiation
68. Study of irradiation temperature effect on radiation-induced polymorphic transformation mechanisms in ZrO₂ ceramics
69. Study of Polymorphic Transformation Processes and Their Influence in Polycrystalline ZrO₂ Ceramics upon Irradiation with Heavy Ions
70. Study of Radiation Damage Kinetics in Dispersed Nuclear Fuel on Zirconium Dioxide Doped with Cerium Dioxide
71. Study of Radiation-Induced Damage Processes in CeZrO₄–YZrO₃ Ceramics Caused by Helium Irradiation
72. Study of radiation-induced structural changes in the near-surface layer of ZrO₂ ceramics caused by He²⁺ irradiation
73. Study of Structural, Strength, and Thermophysical Properties of Li_2+4xZr₄_−xO₃ Ceramics
74. Study of the effect of ion irradiation on increasing the photocatalytic activity of WO₃ microparticles
75. Study of the Effect of Nanostructured Grains on the Radiation Resistance of Zirconium Dioxide Ceramics During Gas Swelling in the Case of High-Dose Irradiation with He²⁺ Ions
76. Study of the effect of phase formation processes on the change in optical and thermal properties of Nd₂Zr₂O₇ ceramics with a pyrochlore structure
77. Study of the Effect of Two Phases in Li₄SiO₄–Li₂SiO₃ Ceramics on the Strength and Thermophysical Parameters
78. Study of the Influence of Doping Efficiency of CeO₂ Ceramics with a Stabilizing Additive Y₂O₃ on Changes in the Strength and Thermophysical Parameters of Ceramics under High-Temperature Irradiation with Heavy Ions
79. STUDY OF THE INFLUENCE OF THE ACCUMULATED DOSE OF DAMAGE IN THE NEAR-SURFACE LAYER ON RESISTANCE TO EXTERNAL INFLUENCES ASSOCIATED WITH CORROSION PROCESSES DURING HIGH-TEMPERATURE ANNEALING
80. Study of the Morphological and Structural Features of Inert Matrices Based on ZrO₂–CeO₂ Doped with Y₂O₃ and the Effect of Grain Sizes on the Strength Properties of Ceramics
81. Study of the Reinforcement Effect in (0.5–x)TeO₂–0.2WO₃–0.1Bi₂O₃–0.1MoO₃–0.1SiO₂–xCNDs Glasses Doped with Carbon Nanodiamonds
82. Study of the Resistance of Lithium-Containing Ceramics to Helium Swelling
83. Study of the Structural, Optical and Strength Properties of Glass-like (1−x)ZnO–0.25Al₂O₃–0.25WO₃–xBi₂O₃ Ceramics
84. The effect of the applied potentials difference on the phase composition of Co nanowires
85. The Influence of High-Temperature Tests on the Resistance to Degradation and Reduction in Strength Properties of Lithium-Containing Ceramics Used as Blanket Materials for Tritium Breeding
86. The Synthesis, Properties, and Stability of Lithium-Containing Nanostructured Nickel-Doped Ceramics
87. Study of the effect of doping ZrO₂ ceramics with MgO to increase the resistance to polymorphic transformations under the action of irradiation
88. Study of the Effect of Variation in the Phase Composition of ZrO₂/MgO Ceramics on the Resistance to Radiation Damage during Irradiation with Kr¹⁵⁺ Ions
89. Study of the Mechanisms of Polymorphic Transformations in Zirconium Dioxide upon Doping with Magnesium Oxide, as Well as Establishing the Relationship between Structural Changes and Strength Properties
90. Application of silver-loaded composite track-etched membranes for photocatalytic decomposition of methylene blue under visible light
91. Corrigendum to “Study of structure, cation distribution and magnetic properties of Ni substituted M-type barium hexaferrite” [Materialia 32 (2023)101898] (Materialia (2023) 32, (S2589152923002259), (10.1016/j.mtla.2023.101898))
92. Influence of Al or Cr substitution on structure and magnetic properties of barium hexaferrites prepared by hydrothermal method
93. Magnetic and structural properties of Co-substituted barium hexaferrite synthesized by hydrothermal method
94. Structural and magnetic properties of hydrothermally synthesized Ca-doped hematite
95. Study of structure, cation distribution and magnetic properties of Ni substituted M-type barium hexaferrite
96. Study of the Applicability of Magnetic Iron-Containing Nanoparticles in Hyperthermia and Determination of Their Resistance to Degradation Processes
97. Evaluation of the Applicability of Modifying CdSe Thin Films by the Addition of Cobalt and Nickel to Enhance the Efficiency of Photocatalytic Decomposition of Organic Dyes
98. Study of the applicability of ACdSe (A – Co, Ni) thin films as catalysts for heavy metal capture
99. e-Beam and γ-rays Induced Synthesis and Catalytic Properties of Copper Nanoclusters-Deposited Composite Track-Etched Membranes
100. Environmentally friendly loading of palladium nanoparticles on nanoporous PET track-etched membranes grafted by poly(1-vinyl-2-pyrrolidone) via RAFT polymerization for the photocatalytic degradation of metronidazole
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