@article{oai:sucra.repo.nii.ac.jp:00012980,
 author = {小林, 秀彦 and 荻野, 博幸 and 森, 利之 and 山村, 博 and 三田村, 孝},
 issue = {1174},
 journal = {日本セラミックス協会学術論文誌},
 month = {},
 note = {http://ci.nii.ac.jp/naid/110002290381/ | http://ci.nii.ac.jp/naid/110002290381/, Y_3NbO_7 powders with excess oxygen vacancies were prepared by calcining coprecipitated powders of (YO_<1.5>)_<1-x>(NbO_<2.5>)_x (x=0.20-0.30) at 1200℃ in an Ar gas flow, which was synthesized from YCl_3 and NbCl_5 using the liquid phase coprecipitation method. Also number of oxygen vacancies in the synthesized powders was estimated from the density, and conductivity of the resulting sintered bodies was measured. The number of oxygen vacancies in the Y_3NbO_7 powder in the x=0.25 composition synthesized in Ar was around 1.48 in unit cell even after heat treatment in air. The number of oxygen vacancies in the x=0.20 and 0.30 compositions synthesized in air increased by the change of valence number in Nb. On the other hand, after synthesizing the powder comprised of the x=0.20 composition in Ar, the number of oxygen vacancy of the powder reheated in air was 2.06. The conductivity of sintered bodies fabricated from the Y_3NbO_7 powders synthesized in Ar was raised by a half digit higher than that of the sintered body fabricated from the powders synthesized in air. The conductivity of the sintered bodies obtained from the synthesized powders increased almost linearly with an increase in the number of oxygen vacancies. Therefore, it was found that the introduction of oxygen vacancies by controlling composition and the powder preparation was an important factor for increasing in conductivity of Y_3NbO_7 sintered body., rights: 社団法人日本セラミックス協会
rights: 本文データは学協会の許諾に基づきCiNiiから複製したものである
relation: IsVersionOf: http://ci.nii.ac.jp/naid/110002290381/, text, application/pdf},
 pages = {671--674},
 title = {過剰な酸素イオン空孔を有するY_3NbO_7の粉末合成と導電性},
 volume = {101},
 year = {1993},
 yomi = {コバヤシ, ヒデヒコ and オギノ, ヒロユキ and モリ, トシユキ and ヤマムラ, ヒロシ and ミタム, ラタカシ}
}