氧化钇 | 1314-36-9
氧化钇
Yttrium Oxide
1314-36-9
Y2O3
225.81
如需查看该化合物的详细结构式,mol文件,smile,InChi 请点击:氧化钇结构式
名称和标识符
MDL |
MFCD00011473 |
InChIKey |
SIWVEOZUMHYXCS-UHFFFAOYSA-N |
Inchi |
1S/3O.2Y/q3*-2;2*+3 |
SMILES |
[O-2].[O-2].[O-2].[Y+3].[Y+3] |
别名信息
- 中文别名 -
- 氧化钇
- 钇氧
- 三氧化二钇
- 氧化钇(III)
- 氧化釔
- 氧化钇耙材
- 氧化钇(III)耙材, 50.8MM (2.0IN) DIA X 3.18MM (0.125IN) T
- 纳米氧化钇
- 纳米氧化钇醇分散液
- 替美司坦
- 稀土氧化钇
- 氧化镨
- 氧化钇 YTTRIUM OXIDE
- 氧化钇(阴凉)
- 氧化钇, 痕量金属分析
- 钇溶胶
- 大颗粒球形氧化钇粉
- 等离子热喷涂用球形氧化钇
- 氧化钇造粒粉
- 硅酸钇
- 氧化钇,氧化钇粉末,纳米氧化钇,超细氧化钇
- 高纯氧化钇
- 英文别名 -
- Yttrium(III)-oxide
- Y203 A
- Y203 AT
- Y203 B
- Y203 C
- YTTRIA
- YTTRIUM(+3)OXIDE
- YTTRIUM(III) OXIDE
- YTTRIUM OXIDE
- diyttriumtrioxide
- yo3-245
- yttriumoxide(y2o3)
- yttriumsesquioxide
- yttriumtrioxide
- YttriumoxideREO
- 7Yttrium oxide
- Yttrium(III) oxide pellets
- YTTRIUM OXIDE, NANOPOWDER, <
- 50NM
- Y2O3
- Yttrium silicon oxide
- Nano-yttrium oxide
- High purity yttrium oxide
物化性质
实验特性
LogP |
-0.30600 |
PSA |
43.37000 |
Merck |
10107 |
水溶性 |
不溶 |
沸点 |
81-83 °C |
熔点 |
2410 °C (lit.) |
闪点 |
华氏:53.6 °F 摄氏:12 °C
|
浓度 |
10 wt. % in isopropanol |
颜色与性状 |
白色或浅棕色粉末,体心立方堆积,a=10.605A(1A=0.1nm,下同)。 |
PH值 |
10±1 |
溶解性 |
溶于稀酸,几乎不溶于水。 |
敏感性 |
Air Sensitive |
密度 |
5.01 g/mL at 25 °C(lit.) |
计算特性
精确分子量 |
225.79600 |
氢键供体数量 |
0 |
氢键受体数量 |
3 |
可旋转化学键数量 |
0 |
同位素质量 |
225.79644 |
重原子数量 |
5 |
复杂度 |
34.2 |
同位素原子数量 |
0 |
确定原子立构中心数量 |
0 |
不确定原子立构中心数量 |
0 |
确定化学键立构中心数量 |
0 |
不确定化学键立构中心数量 |
0 |
共价键单元数量 |
1 |
表面电荷 |
0 |
拓扑分子极性表面积 |
43.4 |
海关数据
海关编码 |
2846901100 |
海关数据 |
中国海关编码:
2846901100
|
相关文献
-
1.
Water assisted atomic layer deposition of yttrium oxide using tris(N,N′-diisopropyl-2-dimethylamido-guanidinato) yttrium(iii): process development, film characterization and functional properties
Lukas Mai,Nils Boysen,Ersoy Suba??,Teresa de los Arcos,Detlef Rogalla,Guido Grundmeier,Claudia Bock,Hong-Liang Lu,Anjana Devi RSC Adv. 2018 8 4987
-
2.
An effective partial charge model for bulk and surface properties of cubic ZrO2, Y2O3 and yttrium-stabilised zirconia
Thomas S. Hofer,Franziska M. Kilchert,Bagas A. Tanjung Phys. Chem. Chem. Phys. 2019 21 25635
-
3.
Unexpected optical activity of cerium in Y2O3:Ce3+, Yb3+, Er3+ up and down-conversion system
Riccardo Marin,Michele Back,Nicolò Mazzucco,Francesco Enrichi,Romana Frattini,Alvise Benedetti,Pietro Riello Dalton Trans. 2013 42 16837
-
4.
Study of the nanoparticle/matrix interactions in Y2O3–SiO2 samples
Carla Cannas,Mariano Casu,Adolfo Lai,Anna Musinu,Giorgio Piccaluga Phys. Chem. Chem. Phys. 2002 4 2286
-
5.
Phase transformation in the surface region of zirconia and doped zirconia detected by UV Raman spectroscopy
Meijun Li,Zhaochi Feng,Pinliang Ying,Qin Xin,Can Li Phys. Chem. Chem. Phys. 2003 5 5326
-
6.
Phase transformation in the surface region of zirconia and doped zirconia detected by UV Raman spectroscopy
Meijun Li,Zhaochi Feng,Pinliang Ying,Qin Xin,Can Li Phys. Chem. Chem. Phys. 2003 5 5326
-
7.
Facile meltPEGylation of flame-made luminescent Tb3+-doped yttrium oxide particles: hemocompatibility, cellular uptake and comparison to silica
Kerda Keevend,Guido Panzarasa,Fabian H. L. Starsich,Martin Zeltner,Anastasia Spyrogianni,Elena Tsolaki,Giuseppino Fortunato,Sotiris E. Pratsinis,Sergio Bertazzo,Inge K. Herrmann Chem. Commun. 2018 54 2914
-
8.
A solution-processed yttrium oxide gate insulator for high-performance all-solution-processed fully transparent thin film transistors
Keunkyu Song,Wooseok Yang,Yangho Jung,Sunho Jeong,Jooho Moon J. Mater. Chem. 2012 22 21265
-
9.
Nanoscopic yttrium oxide fluorides: non-aqueous fluorolytic sol–gel synthesis and structural insights by 19F and 89Y MAS NMR
G. Scholz,M. Dreger,R. Bertram,E. Kemnitz Dalton Trans. 2015 44 13522
-
10.
Integrating biological activity into radioisotope vectors: molecular dynamics models of yttrium-doped bioactive glasses
Jamieson K. Christie,Antonio Tilocca J. Mater. Chem. 2012 22 12023
参考资料
Reaxys RN |
11323299 |
Beilstein |
215-233-5 |
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