donor-doping 施主掺杂
many donor doping 多施主掺杂
double donor doping 复合掺杂
double-donor doping 双施主掺杂
multiple-donor doping 多施主掺杂
doping of donor 施主掺杂
Oxygen vacancy concentration is reduced by this donor doping. This increases the amount of the switchable domains, being helpful for the enhancement of the remnant polarization, which results in improving the piezoelectric properties.
我们还发现Bi掺杂使得KNN陶瓷的密度和压电性能有所提高,这可能是由于Bi3+掺杂进入A位后,高价阳离子作为施主掺杂,降低了氧空位浓度,使其对铁电畴的钉扎力减弱,可反转的畴的数目增多,增大了样品的剩余极化值,从而提高了KNN的压电性能。
参考来源 - SrBi·2,447,543篇论文数据,部分数据来源于NoteExpress
For every dopant has its advantages and disadvantages, results of recent studies show that double-donor doping and donor-acceptor codoping can improve the performance of the material remarkably.
由于各掺杂物的优缺点不同,近几年研究发现,双施主掺杂和施受主共掺能够很好的改善材料的性能。
Germanium window with low absorption will be obtained through controlling donor concentration and doping isoelectronic im purity.
控制施主浓度和掺杂等电子杂质,可以获得低吸收锗窗。
应用推荐