1) porous manganese oxide
多孔锰氧化物
1.
Micro- and mesoporous manganese oxides as well as layered manganese oxides can be prepared viaa variety of processes.
孔径从微孔到介孔的多孔锰氧化物材料有多种制备方法。
3) manganese oxide
锰氧化物
1.
Adsorption of formaldehyde by activated carbon loaded with manganese oxides;
活性炭负载锰氧化物用于吸附甲醛
2.
The study of ZnO varistor doped with ferromagnetic manganese oxide;
铁磁性锰氧化物掺杂的ZnO压敏电阻性能研究
3.
Due to the remarkable properties of cation exchange capacity,adsorption and redox,manganese oxide has many important potential applications,such as rechargeable lithium battery,environmental protection,advanced separation technology,catalysis,etc.
锰氧化物材料具有优越的离子交换性能、吸附性能和氧化性能,在可充锂电池、环保、高级分离技术、催化等领域有重要的潜在应用价值,引起研究者的广泛兴趣。
4) manganese oxides
锰氧化物
1.
Decolorization on dye wastewater by manganese oxides extracted from spent dry battery;
废电池中回收的锰氧化物对印染废水脱色研究
2.
Crystal structure,preparation and discharge performancefor manganese dioxides and related manganese oxides(Ⅰ);
二氧化锰及相关锰氧化物的晶体结构、制备及放电性能(1)
3.
Review of reactions of manganese oxides with organic compounds and applications of MnOx in environmental remediation;
锰氧化物与环境中有机物的作用及其在环境修复中的应用
5) Manganite
[英]['mæŋɡənait] [美]['mæŋɡə,naɪt]
锰氧化物
1.
Affect of the orbital ordering in half-doped manganites on their optical properties;
轨道序对半掺杂锰氧化物光学性质的影响
2.
The colossalmagnetoresistance manganite La0.
采用高温固态反应法制备了具有钙钛矿结构的锰氧化物La0。
3.
Perovskite-type manganites La0.
采用溶胶-凝胶方法制备钙钛矿型稀土锰氧化物La0。
6) Mn oxides
锰氧化物
1.
PCP was adsorbed primarily on the organic matters and Fe oxides components of the soil; however,Mn oxides and DOM components inhibited the adsorption process.
研究了土壤原样及其去锰氧化物、去铁氧化物、去有机质和去水溶性有机质(DOM)土壤样品对五氯酚(PCP)的吸附规律,分析了土壤及其主要化学组分对PCP的吸附机制。
补充资料:钴钼氢氧化物氧化物磷酸盐
CAS:68130-37-0
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
中文名称:钴钼氢氧化物氧化物磷酸盐
英文名称:Cobalt molybdenum hydroxide oxide phosphate; Molybdenum cobalt acid phosphate complex; Molybdenumcobaltacid phosphate complex
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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