1) submicron Mn2O3
亚微米Mn2O3
2) Mn_2O_3
Mn2O3
1.
After calcinating the above precursor fibers,Mn_2O_3 micro/nanofibers were obtained successfully.
以聚乙烯吡咯烷酮(PVP)为络合剂与醋酸锰Mn(CH3COO)2]反应制得前驱体溶液,用静电纺丝法制备了PVP/Mn(CH3COO)2纤维,经煅烧得到具有微孔结构的Mn2O3微/纳米纤维。
2.
The spherical Mn_2O_3 is obtained by heating MnCO_3 at 560℃ for 4h,then is mixed with LiCoO_3 and sintered at 750℃ to produce spherical LiMn_2O_4.
研究了MnCO3在不同温度下的热分解性能,对热分解产物的差热/热重分析和X射线衍射分析发现,MnCO3的热分解反应分两步进行,在300℃时开始分解,生成中间产物MnO2;在520℃时,MnO2开始转化为Mn2O3,至560℃时完全转化为立方相的球形Mn2O3。
3) submicrometer- or nanometer-scale
亚微米/纳米
1.
A heat transfer model of the thin film-substrate structure is built to extend the original Raman method for the thermal conductivity measurement of the submicrometer- or nanometer-scale thin films.
针对高斯激光入射生热的情况对传统的基于拉曼光谱的薄膜热导率测量方法进行了修正,并以此为基础,对薄膜-衬底复合结构的传热进行了研究,分析了薄膜热导率、衬底热导率、薄膜/衬底接触面热阻对复合结构传热过程的影响,得到了薄膜热导率的解析表达式,从而实现了对基于拉曼光谱的薄膜热导率测量方法的拓展,使其可以被用来测量亚微米/纳米厚度薄膜的热导率。
5) submicron-crystallization
亚微米化
6) submicro-flakes
亚微米片
1.
Nickel hydroxide submicro-flakes were prepared by a hydrothermal synthesis method using Ni(NO_3)_2·6H_2O and NaOH as source materials.
6H2O和NaOH为原料,在水热条件下制备了氢氧化镍亚微米片。
补充资料:2,2'-[亚甲基二(2,1-亚苯基氧亚甲基)]二环氧乙烷
CAS:54208-63-8
分子式:C19H20O4
中文名称:双酚二环甘油醚
2,2'-[亚甲基二(2,1-亚苯基氧亚甲基)]二环氧乙烷
英文名称:2,2'-[methylenebis(2,1-phenyleneoxymethylene)] bis-Oxirane
Methylenebis(o-phenol), 3-propylene oxide ether
2,2'-[methylenebis(2,1-phenyleneoxymethylene)]bis-oxiran
分子式:C19H20O4
中文名称:双酚二环甘油醚
2,2'-[亚甲基二(2,1-亚苯基氧亚甲基)]二环氧乙烷
英文名称:2,2'-[methylenebis(2,1-phenyleneoxymethylene)] bis-Oxirane
Methylenebis(o-phenol), 3-propylene oxide ether
2,2'-[methylenebis(2,1-phenyleneoxymethylene)]bis-oxiran
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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