Synthesis and characterization of Y2O3 nanoparticles by sol–gel process for transparent ceramics applications

“…Y 2 O 3 is considered the most important multifunctional material due to its potential application prospects. Y 2 O 3 has a high resistance to corrosive conditions, stable to chemical reactions, high melting point (~2683K), and low creep rate 3 . The researcher's consideration toward Y 2 O 3 based polycrystalline transparent ceramics (PTC) has been given because of its superior quality, easy fabrication and wide range of applications 4 .…”

“…a high resistance to corrosive conditions, stable to chemical reactions, high melting point (~2683K), and low creep rate. 3 The researcher's consideration toward Y 2 O 3 based polycrystalline transparent ceramics (PTC) has been given because of its superior quality, easy fabrication and wide range of applications. 4 Hence, Y 2 O 3 based PTC appears as a good alternative for replacing the single crystals in strategic application.…”

Structural, morphological, and opto‐electrical properties of Y_2‐xYb_xO₃nanoparticles synthesized using co‐precipitation method

“…Y 2 O 3 is considered the most important multifunctional material due to its potential application prospects. Y 2 O 3 has a high resistance to corrosive conditions, stable to chemical reactions, high melting point (~2683K), and low creep rate 3 . The researcher's consideration toward Y 2 O 3 based polycrystalline transparent ceramics (PTC) has been given because of its superior quality, easy fabrication and wide range of applications 4 .…”

“…a high resistance to corrosive conditions, stable to chemical reactions, high melting point (~2683K), and low creep rate. 3 The researcher's consideration toward Y 2 O 3 based polycrystalline transparent ceramics (PTC) has been given because of its superior quality, easy fabrication and wide range of applications. 4 Hence, Y 2 O 3 based PTC appears as a good alternative for replacing the single crystals in strategic application.…”

Structural, morphological, and opto‐electrical properties of Y_2‐xYb_xO₃nanoparticles synthesized using co‐precipitation method

“…The advantages of the Pechini method include its simplicity, the use of widely available reagents, and the obtaining of products with homogeneous characteristics. Therefore, it is nowadays commonly used for the synthesis of many materials, including laser gain materials [20], superconductors [21], perovskites [22], catalysts [23], and nanoparticles [24].…”

Highly Efficient Wideband Microwave Absorbers Based on Zero-Valent Fe@γ-Fe2O3 and Fe/Co/Ni Carbon-Protected Alloy Nanoparticles Supported on Reduced Graphene Oxide

“…Recently, new types of optical devices, such as high-energy laser, optical fiber amplifiers, and optical rotators, have attracted significant attention due to their unique physical properties. Y 2 O 3 , either pure or often doped with rare-earth ions, has been widely investigated as a host material for potential applications in lasers, three dimensional volumetric displays, fluorescent labels, and luminous pipes for high-intensity discharge lamps [1][2][3][4][5][6][7][8][9][10][11][12][13]. The performance of these devices is mainly dependent on the physicochemical properties of the powders that were sintered.…”

“…Pure yttrium oxide exhibits C-bixbyite, cubic, hexagonal, or monoclinic crystal structure [5][6][7][8][9][10]. Many different chemical methods, such as sol-gel EDTA, hydrothermal, co-precipitation method, spray pyrolysis, thermochemical reactions, and solid state reaction, were widely used to synthesize nano-sized powders of pure and doped Y 2 O 3 [10][11][12][13][14][15]. Furthermore, citrate sol-gel process is one of wet chemical methods that receives attention due to its high efficiency and possibility to prepare high clean and nano-sized powders [4, 6-9, 13, 15].…”

Investigation on the physicochemical properties of La-doped Er0.05Y1.95O3 nanopowders