wurtzite structure meaning in English
纤锌矿结构
纤锌矿型结构
Examples
- Xrd spectra show that the bulk gan particles are wurtzite structure , and the nc gan has small domain size and the structure of solid solution phase
Xrd结果显示经由气凝法合成前后氮化镓均为一六方晶系结构,利用块状氮化镓生成的奈米粉体粒径微细且是一种固溶相结构。 - When x 0 . 36 , the alloy thin films keep the wurtzite structure . and the band gap could be varied from 3 . 40 ev to 3 . 93 ev . the mg0 . 05zn0 . 95o and mg0 . 15zn0 . 85o alloys with wurtzite structure show high thermal stability up to 1000
研究表明当x的取值小于等于0 . 36时,合金薄膜会保持zno六角形纤锌矿结构,此时薄膜的能隙宽度可以在3 . 4ev到3 . 93ev之间调节。 - The x - ray diffraction patterns and raman spectra indicated that zns fully transformed into zno with a polycrystalline hexagonal wurtzite structure when zns thin films were oxidized at annealing temperature of above 700 oc in an oxygen ambient
X射线衍射( xrd )和拉曼实验结果表明硫化锌( zns )薄膜在高于700oc热氧化处理后,硫化锌( zns )全部转化为氧化锌( zno ) ,且是六角纤锌矿的多晶薄膜。 - Zno is a ii - vi semiconductor material with wide band - gap , which has hexagonal wurtzite structure . zno thin films were widely applied in solar cell , uv detector , saw device , gas sensor and transparent electrodes et al for their excellent properties
氧化锌( zno )是一种具有六方纤锌矿晶体结构的宽禁带ii - vi族半导体材料,由于其优良的特性,在太阳能电池、紫外探测器、声表面波器件、气敏传感器、透明电极等方面得到了广泛的应用。 - Aln is an important compound semiconductor material with wide band - gap , which has wurtzite structure too . because of their many excellent physical properties , aln thin films were applied in blue - uv emitting materials , epitaxy buffer layer , soi material and saw device with ghz band
Aln具有许多优异的物理性能,在蓝光、紫外发光材料及热释电材料、外延过渡层、 soi材料的绝缘埋层和ghz级声表面波器件等方面有着重要的应用。