1) Aeration effect
掺气效应
2) effect of dopant
掺杂效应
1.
The research progress in recent years of preparation (including effective factors), the technology of agglomeration prevention,the effect of dopant (including the mechanism of gas sensitivity) of α Fe 2O 3 matrix gas sensing material is reviewed.
本文综合介绍了 α-Fe2 O3气敏材料近年来在制备方法 (含影响因素 )、防团聚技术、掺杂效应 (含气敏机理 )上的研究新进展。
3) doping effect
掺杂效应
1.
Molten Salt Techneque Preparation of Bismuthate Superconductors and Researches on the Doping Effect
铋酸盐超导体的熔盐制备技术以及掺杂效应研究
2.
Some hotspots in the investigation doping effects of YBCO at prespresent is also briefly introduced.
介绍了YBCO掺杂的基础知识,总结了YBCO各个位置采用典型元素掺杂而导致的超导电性和结构的变化,阐述了掺杂对YBCO的重要影响,并简介了当前YBCO掺杂效应研究中的几个热点问题。
3.
The calculation results demonstrated that cobalt has a stronger doping effect on the twin interface than iron, and has less influence on the magnetic property of the twin boundary than the latter.
分别从界面能、偏聚能、磁矩、键序和电子态密度等角度对合金元素在界面处的掺杂效应进行了分析和比较。
5) nitrogen-doped effect
掺氮效应
1.
The longitudinal optical phonon-plasmon coupled modes (LOPC modes) of different SiC polytypes show that the nitrogen-doped effect of 6H-SiC is markedly different from that of 4H-SiC, and is similar to that of 15R-SiC under the growth condition of nitrogen-doped 6H-SiC single crystal.
不同SiC多型体的纵光学声子与等离子体激元的耦合模 (LOPC模 )表明 :在掺氮 6H SiC单晶的生长条件下 ,6H SiC的掺氮效应与 4H SiC存在明显差别 ,而与 1 5R SiC的掺氮效应相
6) mixture effect
联掺效应
补充资料:掺掺
1.女手纤美貌。
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