1) β-type MoO 3
β型三氧化钼
1.
Crystal structure and thermal stability of β-type MoO 3 were recounted.
在国内首次叙述了 β型三氧化钼的晶体结构、热稳定性以及 β型三氧化钼的研究、制定和用
2) molybdenum trioxide
三氧化钼
1.
A New Process of Preparing High-purity Molybdenum Trioxide by Microwave Hybrid Heating;
微波混合加热制备高纯三氧化钼新工艺
2.
Electrochemical properties of molybdenum trioxide and its appl ications;
三氧化钼的电化学性质及其应用
3.
Progress in preparation and electrochemical properties of lithium intercalation-detercalation of layered molybdenum trioxides has been introduced.
三氧化钼具有独特的层状结构,主要以三种相态存在:热力学稳定的正交相、热力学介稳的单斜相和六方相。
3) MoO3
三氧化钼
1.
Synthesis of MoO3 nanobelts with no template via a simple hydrothermal method from peroxomolybdic acid sols was reported.
以过氧钼酸溶胶为反应前驱体采用简单的水热方法,在没有任何模板剂的条件下合成三氧化钼纳米带,通过XRD,SEM,TEM和IR等测试方法对产物进行结构表征和形貌分析。
2.
Molybdenum trioxides(MoO3) usually have three forms: orthorhombic,hexagonal and monoclinic.
三氧化钼(MoO3)以三种常见的物相存在:正交相、六方相和单斜相,前者为热力学稳定相,后两者为热力学介稳相。
3.
This study investigated physicochemical characters and biotoxicity of waste water and leachate of waste residue from MoO3 produced using physicochemical analysis and biotoxicity test.
利用理化和生物监测相结合研究了三氧化钼(MoO3)生产排放废水及废渣的理化特性及生物毒性。
4) molybdenum oxide
三氧化钼
1.
EPDM was successfully epoxidized using t butyhy droperoxide as oxidant in association with molybdenum oxide as catalyst.
以叔丁基氢过氧化物为环氧化剂 ,过渡金属化合物三氧化钼为催化剂 ,探讨了三元乙丙橡胶(EPDM)在甲苯中的环氧化反应。
2.
A sol\|gel process was presented to prepare molybdenum oxide thin films.
采用溶胶 凝胶法成功制备了三氧化钼 (MoO3)薄膜 。
6) MoO_3
三氧化钼
1.
Study on MoO_3 electrochromic films by sol-gel process;
溶胶—凝胶法制备三氧化钼电致变色薄膜的研究
2.
Thermodynamically stable orthorhombic molybdenum trioxide(α-MoO_3) and metastable hexagonal MoO_3 micron rods were synthesized by hydrothermal treatment at low temperature.
007 g、太阳光照射3 h、有氧条件下,h-MoO_3对浓度为10 mg/L的次甲基兰的催化效果最好,染料的脱色率达90%以上,表明合成的三氧化钼微米棒是一种性能优良的光催化剂。
补充资料:三氧化钼
化学式MoO3,分子量143.94。白色透明斜方晶体,加热时转为黄色,冷却后恢复原来颜色。密度4.692g/cm3,熔点795℃,沸点1155℃,易升华。不溶于水,可熔于氨水和强碱溶液,生成钼酸盐。溶于强酸、生成二氧钼根(MoO22+)和氧钼根(MoO4+)络合阳离子,与酸根可形成可溶性络合物。氧化性极弱,在高温下可被氢、碳、铝还原。用作分析试剂,制备钼合金和钼盐。在空气中灼烧钼或二硫化钼或者焙烧钼酸制得。
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