1) lead nickel tungstate
钨镍酸铅
2) lead tungstate nickelatelead antimonate manganatelead zirconate titanate piezoelectric ceramics
钨镍酸铅锑锰酸铅锆钛酸铅压电陶瓷
3) nickel tungstate
钨酸镍
4) lead tungstate
钨酸铅
1.
Template-free synthesis and photoluminescence of double-tower-like lead tungstate
类双塔状钨酸铅微晶的无模板合成及光致发光性质
2.
And the morphologies of lead tungstate crystal were different when different surfactants of polygycol 200 and cetyltrimethyl ammonium bromide(CTAB) were added in the experiments.
以钨酸钠和醋酸铅为原料,分别加以表面活性剂聚乙二醇200和十六烷基三甲苯溴化铵,用沉淀法合成出钨酸铅纳米晶和菱形微晶。
3.
The X-ray diffraction analysis indi- cates that the crystallite lead tungstate microcrystals were excellent,and observation results by transmission electron microscopy in- dicate that the rhombic lead tungstate microcrystals with a size of 1-1.
以钨酸钠和醋酸铅为原料,加以表面活性剂十六烷基三甲苯溴化铵,用沉淀法制备钨酸铅产物;将钨酸铅产物在100℃烘干后制备了菱形钨酸铅微晶粉体。
5) PbWO_4
钨酸铅
1.
Preparation and Photoluminescence of PbWO_4 Nanocrystals;
钨酸铅纳米晶的制备及其发光性能研究
2.
Review of Progress in Lead Tungstate (PbWO_4) Scintillation Crystals;
钨酸铅(PbWO_4)晶体的研究概况
3.
Thermoluminescence and Optically Stimulated Luminescence of PbWO_4 Doped with Y~(3+);
掺钇钨酸铅晶体的热释光和光释光
6) lead magnesium tungstate
钨镁酸铅
1.
Preparation method, crystal structure, sinterability and dielectric properties of Ca_doped lead magnesium tungstate (PMW) ceramics were investigated.
研究了Ca掺杂钨镁酸铅 (PMW )陶瓷材料的合成、结构、烧结以及介电性能。
补充资料:钨酸镍湿敏材料
分子式:NiWO4
CAS号:
性质:一种具有湿敏效应的半导体陶瓷。钨锰矿型结构。材料的半导体化过程使晶粒体的电阻率大为降低,而粒界电阻要比体内电阻高得多。这种粒界高阻效应具有良好的湿敏特性。电阻率为8.0×106Ω·cm,湿敏度为8.2%(RH),在900℃下采用固相烧结法制备。为厚膜型湿敏电阻器的感湿体材料。
CAS号:
性质:一种具有湿敏效应的半导体陶瓷。钨锰矿型结构。材料的半导体化过程使晶粒体的电阻率大为降低,而粒界电阻要比体内电阻高得多。这种粒界高阻效应具有良好的湿敏特性。电阻率为8.0×106Ω·cm,湿敏度为8.2%(RH),在900℃下采用固相烧结法制备。为厚膜型湿敏电阻器的感湿体材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条