Overview of Gadolinium Oxide Gd2O3 Powder
It is an inorganic compound with the molecular formula Gd2O3. It is one of the most common forms of rare earth element g, and its derivatives are potential magnetic resonance imaging contrast agents.
Oxidized Ga oxide has two structures. The cubic (CI80, IA3, No.206) structure is similar to manganese (III) oxide and heavy trivalent lanthanide sesquioxide. There are two types of sites in the cubic structure. The coordination number of each site is 6, but the coordination geometry is different. The second form is monoclinic (Pearson symbol MS30, space group C2/M, number 12). At room temperature, the cubic structure is more stable. This phase becomes a monoclinic structure at 1200°C. The melting point is higher than 2100°C to 2420°C, mainly hexagonal phase.
Oxidation Ga can be formed by thermal decomposition of hydroxide, nitrate, carbonate, or oxalate. Oxidation d is formed on the surface of metal g.
Oxidation Ga is a highly alkaline oxide that can react with carbon dioxide to form carbonate. It is easily soluble in common inorganic acids. The complication is that oxalic acid, fluoride, sulfate, and phosphate are very insoluble in water and may cover oxide particles, thereby preventing their complete dissolution. At present, there are several methods for synthesizing oxide nanoparticles, mainly by reacting ion ions with the hydroxide to precipitate hydroxide, and then thermally dehydrating to obtain oxide g. The nanoparticles are always coated with a protective material to prevent the formation of larger polycrystalline aggregates.
Oxidized Ga nanoparticles are potential magnetic resonance imaging contrast agents. At 7.05 T (compared to the 0.5-3 T of the clinically used MRI scanner, an abnormally high electric field), 20-40 nm oxidized g particles coated with deshosides were prepared, and the relaxation time of each particle At 4.8 s-1 mm -1, smaller particles with ions between 2 and 7 nm were tested as MRI reagents. To
The performance of Gadolinium Oxide Gd2O3 Powder
Oxidation Ga is a kind of rare earth oxide, mainly used to make optical glass and ado yttrium garnet with microwave applications. High-purity Ga oxide is used to make phosphors for color picture tubes.
How is Gadolinium Oxide Gd2O3 Powder produced?
The preparation method of oxidized oxide: take monazite or mixed rare earth ore as raw materials, and prepare prepared and mixed rare earth solutions through purification steps such as extraction. Oxalic acid is precipitated by oxalic acid, then separated, dried, and burned to prepare oxide.
The application of Gadolinium Oxide Gd2O3 Powder
Gadolinium Ga oxide is used for:
Fluorescent powder for the color picture tube
Optical glass
Atomic reaction absorbing material
The microwave application to be used is the preparation of gadolinium garnet yttrium.
The price of Gadolinium Oxide Gd2O3 Powder
The price of Gadolinium Oxide Gd2O3 Powder will vary randomly with the production cost, transportation cost, international situation, exchange rate, and market supply and demand of Gadolinium Oxide Gd2O3 Powder. Tanki New Materials Co. Ltd aims to help all industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full set of customized services. If you are looking for Gadolinium Oxide Gd2O3 Powder, please feel free to send to get the latest Gadolinium Oxide Gd2O3 Powder prices.
Suppliers of Gadolinium Oxide Gd2O3 Powder
As a global supplier of Gadolinium Oxide Gd2O3 Powder, Tanki New Materials Co., Ltd. has extensive experience in the performance, application, and cost-effective manufacturing of advanced technology and engineering materials. The company has successfully developed a series of powder materials (including oxides, carbides, nitrides, single metals, etc.), high-purity targets, functional ceramics, and structural devices, and provides OEM services.
Technical Parameter of Gadolinium Oxide Gd2O3 Powder: | ||||||
ITEM | SPECIFICATIONS | TEST RESULTS | ||||
Gd2O3/TREO(%,Min) | 99.999 | 99.999 | ||||
TREO(%,Min) | 99 | 99.64 | ||||
RE Impurities(ppm/TREO,Max) | ||||||
La2O3 | <1.0 | |||||
CeO2 | <1.0 | |||||
Pr6O11 | <1.0 | |||||
Nd2O3 | <1.0 | |||||
Sm2O3 | <1.0 | |||||
Eu2O3 | <1.0 | |||||
Tb4O7 | 1.5 | |||||
Dy2O3 | <1.0 | |||||
Ho2O3 | <1.0 | |||||
Er2O3 | <1.0 | |||||
Tm2O3 | <1.0 | |||||
Yb2O3 | <1.0 | |||||
Lu2O3 | <1.0 | |||||
Y2O3 | <1.0 | |||||
Non-Re Impurities(ppm,Max) | ||||||
Fe2O3 | <1.0 | |||||
CaO | 4 | |||||
SiO2 | 13 | |||||
Cl- | <50 | |||||
Al2O3 | <50 | |||||
L.O.I (%) | 0.26 |
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