1) MoO 3 ultrafine powders
MoO3微粉
2) MoO_3
MoO3
1.
α-MoO_3 nanobelts can be hydrothermally synthesized by acidifying solution of molybdate with nitric acid at a well-controlled concentration.
通过调控硝酸浓度,利用水热酸化钼酸盐溶液高产率地合成了的-αMoO3纳米纤维。
2.
TiO_2/SiO_2 were prepared by the chemical modification reaction on SiO_2,then the supported coupled semiconductors(MoO_3,ZnO)-TiO_2/SiO_2 were prepared by isovolumic impregnating TiO_2/SiO_2.
用表面改性法制备TiO2/S iO2,以等体积浸渍法制备负载型复合半导体催化剂(MoO3,ZnO)-TiO2/S iO2,通过XRD、BET、TPR、IR、UV-V is DRS和TPD等技术对材料的表面形态结构、吸光特性、化学吸附性能及光催化甲烷和水的反应性能进行了表征和分析。
3.
MoO_3,expandable graphite(EG) and MoO_3/EG were added to APP/PER/MEL coating to get MoO_3,EG and MoO_3/EG modified flame retardant coatings.
采用MoO3、可膨胀石墨(EG)和MoO3/EG对APP/PER/MEL膨胀防火涂料进行改性,制备成改性涂料,运用隔热性能分析和热重分析(TGA)测试改性涂料的耐火极限和残碳率。
3) molybdenum oxide
MoO3
1.
Nano structured molybdenum oxide films have been prepared using a sol-gel process with the starting molybdenum powders together with the spin coating method in this paper.
报道了以钼粉为原料,采用溶胶凝胶技术和旋转镀膜方法,制备MoO3纳米薄膜。
4) MoO 3
MoO3
1.
The effects of MoO 3 loading and calcination temperature on the performance of methane non oxidative aromatization over Mo/HZSM 11 catalysts were investigated.
考察了MoO3 担载量及焙烧温度对Mo/HZSM 11甲烷无氧芳构化性能的影响。
5) Pt-MoO_3
Pt-MoO3
1.
The Pt-MoO_3/C catalysts were prepared in the method of chemical deposition and dipping.
用浸渍法和化学沉积法来制备Pt-MoO3/C催化剂,用线性扫描法(LSV)研究了甲醇及CO在Pt-MoO3/C和Pt/C电极上的电化学氧化。
6) MoO_3/γ-Al_2O_3
MoO3/-γAl2O3
补充资料:"球粒"硅微粉
“球粒”硅微粉在国内罕见。矿产资源研究所掌握全国范围内的矿产资源和先进的矿产品加工技术,选用高品质石英原矿,经独特工艺加工而成的一种高强度、高硬度、惰性的球型颗粒,其主要成-分sio2含量99.6%以上,密度为2.65,莫氏硬度为7,细度在325目至5000目之间,白度在70-94之间, 具有合理可控的粒度范围,外观为白色粉末状。
经电镜分析,硅微粉颗粒形态为近等轴状六角多面体形,被称为“球形”颗粒。
硅微粉主要由微晶质石英组成,sio2含量大于99.50%, 硅微粉中有害元素含量极低,均低于检出极限。
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