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(Top) 1 Structure 2 Preparation and chemistry 3 Nanoparticles of Gd₂O₃ 4 Potential applications 5 References

Gadolinium(III) oxide

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Gadolinium(III) oxide
Names

Other names gadolinium sesquioxide, gadolinium trioxide
Identifiers
CAS Number	12064-62-9^Y
3D model (JSmol)	Interactive image
ChemSpider	140201^Y
ECHA InfoCard	100.031.861
EC Number	235-060-9
PubChem CID	159427
RTECS number	LW4790000
UNII	5480D0NHLJ^Y
CompTox Dashboard (EPA)	DTXSID4051613 DTXSID00912093, DTXSID4051613
InChI InChI=1S/2Gd.3O/q2+3;3-2^Y Key: CMIHHWBVHJVIGI-UHFFFAOYSA-N^Y InChI=1/2Gd.3O/q2+3;3-2 Key: CMIHHWBVHJVIGI-UHFFFAOYAI
SMILES [Gd+3].[Gd+3].[O-2].[O-2].[O-2]
Properties
Chemical formula	Gd₂O₃
Molar mass	362.50 g/mol
Appearance	white odorless powder
Density	7.07 g/cm³ ^[1]
Melting point	2,420 °C (4,390 °F; 2,690 K)
Solubility in water	insoluble
Solubility product (K_sp)	1.8×10⁻²³
Solubility	soluble in acid
Magnetic susceptibility (χ)	+53,200·10⁻⁶cm³/mol
Structure
Crystal structure	cubic, cI80, Monoclinic
Space group	Ia-3, No. 206, C2/m, No. 12
Hazards
GHS labelling:
Pictograms
Signal word	Warning
Hazard statements	H319, H410
Precautionary statements	P264, P273, P280, P305+P351+P338, P337+P313, P391, P501
Safety data sheet (SDS)	External MSDS
Related compounds
Other anions	Gadolinium(III) chloride
Other cations	Europium(III) oxide, Terbium(III) oxide
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is ^YN ?) Infobox references

Gadolinium(III) oxide (archaically gadolinia) is an inorganic compound with the formulaGd₂O₃. It is one of the most commonly available forms of the rare-earth element gadolinium, derivatives, of which are potential contrast agents for magnetic resonance imaging.^[2]

Structure[edit]

Cubic Gd₂O₃

MonoclinicGd₂O₃ (gadolinium atoms are green, oxygen atoms are red)

Gadolinium oxide adopts two structures. The cubic (cI80, Ia3), No. 206) structure is similar to that of manganese(III) oxide and heavy trivalent lanthanide sesquioxides. The cubic structure features two types of gadolinium sites, each with a coordination number of 6 but with different coordination geometries. The second polymorph is monoclinic (Pearson symbol mS30, space group C2/m, No. 12).^[3] At room temperature, the cubic structure is more stable. The phase change to the monoclinic structure takes place at 1200 °C. Above 2100 °C to the melting point at 2420 °C, a hexagonal phase dominates.^[4]

Preparation and chemistry[edit]

Gadolinium oxide can be formed by thermal decomposition of the hydroxide, nitrate, carbonate, or oxalates.^[5] Gadolinium oxide forms on the surface of gadolinium metal.

Gadolinium oxide is a rather basic oxide, indicated by its ready reaction with carbon dioxide to give carbonates. It dissolves readily in the common mineral acids with the complication that the oxalate, fluoride, sulfate and phosphate are very insoluble in water and may coat the grains of oxide, thereby preventing the complete dissolution.^[6]

Nanoparticles of Gd₂O₃[edit]

Several methods are known for the synthesis of gadolinium oxide nanoparticles, mostly based on precipitation of the hydroxide by the reaction of gadolinium ions with hydroxide, followed by thermal dehydration to the oxide. The nanoparticles are always coated with a protective material to avoid the formation of larger polycrystalline aggregates.^[7]^[8]^[9]

Nanoparticles of gadolinium oxide is a potential contrast agent for magnetic resonance imaging (MRI). A dextran-coated preparation of 20–40 nm sized gadolinium oxide particles had a relaxivity of 4.8 s⁻¹mM⁻¹ per gadolinium ion at 7.05 T (an unusually high field compared to the clinically used MRI scanners which mostly range from 0.5 to 3 T).^[7] Smaller particles, between 2 and 7 nm, were tested as an MRI agent.^[8]^[9]

Potential applications[edit]

Gadolinium(III) oxide is a host material in some solid-state lasers. Doped with rare-earth ions such as neodymiumorerbium, Gd₂O₃ can produce lasers with high efficiency and specific wavelengths, which are important in various applications, including telecommunications and medical procedures.^[10]
Gd₂O₃ is used in some solid oxide fuel cells (SOFCs).^[11]^[12]

References[edit]

^ Pradyot Patnaik. Handbook of Inorganic Chemicals. McGraw-Hill, 2002, ISBN 0-07-049439-8.

^ Ibrahim, Michael; Hazhirkarzar, Bita; Dublin, Arthur (2023). "Gadolinium Magnetic Resonance Imaging". National Library of Medicine. StatPearls Publishing. Retrieved July 8, 2024.

^ Wells, A.F. (1984) Structural Inorganic Chemistry 5th edition Oxford Science Publications. ISBN 0-19-855370-6.

^ Adachi, Gin-ya; Imanaka, Nobuhito (1998). "The Binary Rare Earth Oxides". Chemical Reviews. 98 (4): 1479–1514. doi:10.1021/cr940055h. PMID 11848940.

^ Cotton, S. (2006) Lanthanide and Actinide Chemistry Wiley ISBN 0-470-01006-1 p. 6

^ Yost, D.M, Russell, H. Jr., Garner, C.S. The Rare-Earth Elements and their Compounds, Wiley, 1947.

^ ^a ^b McDonald, M; Watkin, K (2006). "Investigations into the Physicochemical Properties of Dextran Small Particulate Gadolinium Oxide Nanoparticles". Academic Radiology. 13 (4): 421–27. doi:10.1016/j.acra.2005.11.005. PMID 16554221.

^ ^a ^b Bridot, Jean-Luc; Faure, Anne-Charlotte; Laurent, Sophie; Rivière, Charlotte; Billotey, Claire; Hiba, Bassem; Janier, Marc; Josserand, VéRonique; et al. (2007). "Hybrid Gadolinium Oxide Nanoparticles: Multimodal Contrast Agents for in Vivo Imaging". Journal of the American Chemical Society. 129 (16): 5076–84. doi:10.1021/ja068356j. PMID 17397154.

^ ^a ^b Engström, Maria; Klasson, Anna; Pedersen, Henrik; Vahlberg, Cecilia; Käll, Per-Olov; Uvdal, Kajsa (2006). "High proton relaxivity for gadolinium oxide nanoparticles". Magnetic Resonance Materials in Physics, Biology and Medicine. 19 (4): 180–86. doi:10.1007/s10334-006-0039-x. PMID 16909260. S2CID 23259790.

^ Ismail, N.A.N.; Zaid, M.H.M. (2023). "Role of Gd2O3 on structure rearrangement and elastic properties ZnO-Al2O3-B2O3-SiO2 glass system". Optik. 276. doi:10.1016/j.ijleo.2023.170659.

^ "OX1082 Gadolinium Oxide (Gd2O3)". Stanford Advanced Materials. Retrieved July 8, 2024.

^ Shah, M.A.K; Lu, Yuzheng (2023). "Designing Gadolinium-doped ceria electrolyte for low temperature electrochemical energy conversion". International Journal of Hydrogen Energy. 48 (37): 14000–14011. doi:10.1016/j.ijhydene.2022.12.314.

v t e Oxides
Mixed oxidation states	Antimony tetroxide (Sb₂O₄) Boron suboxide (B₁₂O₂) Carbon suboxide (C₃O₂) Chlorine perchlorate (Cl₂O₄) Chloryl perchlorate (Cl₂O₆) Cobalt(II,III) oxide (Co₃O₄) Dichlorine pentoxide (Cl₂O₅) Iron(II,III) oxide (Fe₃O₄) Lead(II,IV) oxide (Pb₃O₄) Manganese(II,III) oxide (Mn₃O₄) Mellitic anhydride (C₁₂O₉) Praseodymium(III,IV) oxide (Pr₆O₁₁) Silver(I,III) oxide (Ag₂O₂) Terbium(III,IV) oxide (Tb₄O₇) Tribromine octoxide (Br₃O₈) Triuranium octoxide (U₃O₈)
+1 oxidation state	Aluminium(I) oxide (Al₂O) Copper(I) oxide (Cu₂O) Caesium monoxide (Cs₂O) Dicarbon monoxide (C₂O) Dichlorine monoxide (Cl₂O) Gallium(I) oxide (Ga₂O) Iodine(I) oxide (I₂O) Lithium oxide (Li₂O) Mercury(I) oxide (Hg₂O) Nitrous oxide (N₂O) Potassium oxide (K₂O) Rubidium oxide (Rb₂O) Silver oxide (Ag₂O) Thallium(I) oxide (Tl₂O) Sodium oxide (Na₂O) Water (hydrogen oxide) (H₂O)
+2 oxidation state	Aluminium(II) oxide (AlO) Barium oxide (BaO) Berkelium monoxide (BkO) Beryllium oxide (BeO) Bromine monoxide (BrO) Cadmium oxide (CdO) Calcium oxide (CaO) Carbon monoxide (CO) Chlorine monoxide (ClO) Chromium(II) oxide (CrO) Cobalt(II) oxide (CoO) Copper(II) oxide (CuO) Dinitrogen dioxide (N₂O₂) Europium(II) oxide (EuO) Germanium monoxide (GeO) Iron(II) oxide (FeO) Iodine monoxide (IO) Lead(II) oxide (PbO) Magnesium oxide (MgO) Manganese(II) oxide (MnO) Mercury(II) oxide (HgO) Nickel(II) oxide (NiO) Nitric oxide (NO) Palladium(II) oxide (PdO) Phosphorus monoxide (PO) Polonium monoxide (PoO) Protactinium monoxide (PaO) Radium oxide (RaO) Silicon monoxide (SiO) Strontium oxide (SrO) Sulfur monoxide (SO) Disulfur dioxide (S₂O₂) Thorium monoxide (ThO) Tin(II) oxide (SnO) Titanium(II) oxide (TiO) Vanadium(II) oxide (VO) Yttrium(II) oxide (YO) Zinc oxide (ZnO)
+3 oxidation state	Actinium(III) oxide (Ac₂O₃) Aluminium oxide (Al₂O₃) Americium(III) oxide (Am₂O₃) Antimony trioxide (Sb₂O₃) Arsenic trioxide (As₂O₃) Berkelium(III) oxide (Bk₂O₃) Bismuth(III) oxide (Bi₂O₃) Boron trioxide (B₂O₃) Caesium sesquioxide (Cs₂O₃) Californium(III) oxide (Cf₂O₃) Cerium(III) oxide (Ce₂O₃) Chromium(III) oxide (Cr₂O₃) Cobalt(III) oxide (Co₂O₃) Dinitrogen trioxide (N₂O₃) Dysprosium(III) oxide (Dy₂O₃) Einsteinium(III) oxide (Es₂O₃) Erbium(III) oxide (Er₂O₃) Europium(III) oxide (Eu₂O₃) Gadolinium(III) oxide (Gd₂O₃) Gallium(III) oxide (Ga₂O₃) Gold(III) oxide (Au₂O₃) Holmium(III) oxide (Ho₂O₃) Indium(III) oxide (In₂O₃) Iron(III) oxide (Fe₂O₃) Lanthanum oxide (La₂O₃) Lutetium(III) oxide (Lu₂O₃) Manganese(III) oxide (Mn₂O₃) Neodymium(III) oxide (Nd₂O₃) Nickel(III) oxide (Ni₂O₃) Phosphorus trioxide (P₄O₆) Praseodymium(III) oxide (Pr₂O₃) Promethium(III) oxide (Pm₂O₃) Rhodium(III) oxide (Rh₂O₃) Samarium(III) oxide (Sm₂O₃) Scandium oxide (Sc₂O₃) Terbium(III) oxide (Tb₂O₃) Thallium(III) oxide (Tl₂O₃) Thulium(III) oxide (Tm₂O₃) Titanium(III) oxide (Ti₂O₃) Tungsten(III) oxide (W₂O₃) Vanadium(III) oxide (V₂O₃) Ytterbium(III) oxide (Yb₂O₃) Yttrium(III) oxide (Y₂O₃)
+4 oxidation state	Americium dioxide (AmO₂) Berkelium(IV) oxide (BkO₂) Bromine dioxide (BrO₂) Californium dioxide (CfO₂) Carbon dioxide (CO₂) Carbon trioxide (CO₃) Cerium(IV) oxide (CeO₂) Chlorine dioxide (ClO₂) Chromium(IV) oxide (CrO₂) Curium(IV) oxide (CmO₂) Dinitrogen tetroxide (N₂O₄) Germanium dioxide (GeO₂) Iodine dioxide (IO₂) Hafnium(IV) oxide (HfO₂) Lead dioxide (PbO₂) Manganese dioxide (MnO₂) Neptunium(IV) oxide (NpO₂) Nitrogen dioxide (NO₂) Osmium dioxide (OsO₂) Plutonium(IV) oxide (PuO₂) Polonium dioxide (PoO₂) Praseodymium(IV) oxide (PrO₂) Protactinium(IV) oxide (PaO₂) Rhodium(IV) oxide (RhO₂) Ruthenium(IV) oxide (RuO₂) Selenium dioxide (SeO₂) Silicon dioxide (SiO₂) Sulfur dioxide (SO₂) Technetium(IV) oxide (TcO₂) Tellurium dioxide (TeO₂) Terbium(IV) oxide (TbO₂) Thorium dioxide (ThO₂) Tin dioxide (SnO₂) Titanium dioxide (TiO₂) Tungsten(IV) oxide (WO₂) Uranium dioxide (UO₂) Vanadium(IV) oxide (VO₂) Zirconium dioxide (ZrO₂)
+5 oxidation state	Antimony pentoxide (Sb₂O₅) Arsenic pentoxide (As₂O₅) Bismuth pentoxide (Bi₂O₅) Dinitrogen pentoxide (N₂O₅) Niobium pentoxide (Nb₂O₅) Phosphorus pentoxide (P₂O₅) Protactinium(V) oxide (Pa₂O₅) Tantalum pentoxide (Ta₂O₅) Vanadium(V) oxide (V₂O₅)
+6 oxidation state	Chromium trioxide (CrO₃) Molybdenum trioxide (MoO₃) Polonium trioxide (PoO₃) Rhenium trioxide (ReO₃) Selenium trioxide (SeO₃) Sulfur trioxide (SO₃) Tellurium trioxide (TeO₃) Tungsten trioxide (WO₃) Uranium trioxide (UO₃) Xenon trioxide (XeO₃)
+7 oxidation state	Dichlorine heptoxide (Cl₂O₇) Manganese heptoxide (Mn₂O₇) Rhenium(VII) oxide (Re₂O₇) Technetium(VII) oxide (Tc₂O₇)
+8 oxidation state	Iridium tetroxide (IrO₄) Osmium tetroxide (OsO₄) Ruthenium tetroxide (RuO₄) Xenon tetroxide (XeO₄) Hassium tetroxide (HsO₄)
Related	Oxocarbon Suboxide Oxyanion Ozonide Peroxide Superoxide Oxypnictide
Oxides are sorted by oxidation state. Category:Oxides

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