gadolinia (Meaning)
gadolinia (n.)
A rare earth, regarded by some as an oxide of the supposed element gadolinium, by others as only a mixture of the oxides of yttrium, erbium, ytterbium, etc.
A rare earth associated with yttria and regarded as the oxide (Gd2O3) of a metallic element, Gad`o*lini*um (/), with an assigned atomic weight of 153.3.
Synonyms & Antonyms of gadolinia
No Synonyms and anytonyms found
gadolinia Sentence Examples
- Gadolinia, a rare earth element, is primarily used in phosphors and high-tech ceramics.
- The chemical formula of gadolinia is Gd2O3, and it occurs naturally as a mineral called gadolinite.
- Gadolinia has a high melting point of 2,323 degrees Celsius, making it a valuable refractory material.
- In nuclear applications, gadolinia is used as a neutron absorber in nuclear reactors.
- Gadolinia-doped glass is used in medical imaging for its ability to enhance X-ray images.
- The separation of gadolinia from other rare earth elements requires complex chemical processes.
- Advanced energy-saving technologies often incorporate gadolinia for its thermal and emission-lowering properties.
- Gadolinia nanoparticles exhibit unique optical and magnetic characteristics, making them promising for biomedical applications.
- Due to its high transparency, gadolinia is used in high-power lasers and optical components.
- The global demand for gadolinia is expected to grow significantly due to its applications in clean energy and medical technologies.
FAQs About the word gadolinia
A rare earth, regarded by some as an oxide of the supposed element gadolinium, by others as only a mixture of the oxides of yttrium, erbium, ytterbium, etc., A
No synonyms found.
No antonyms found.
Gadolinia, a rare earth element, is primarily used in phosphors and high-tech ceramics.
The chemical formula of gadolinia is Gd2O3, and it occurs naturally as a mineral called gadolinite.
Gadolinia has a high melting point of 2,323 degrees Celsius, making it a valuable refractory material.
In nuclear applications, gadolinia is used as a neutron absorber in nuclear reactors.
