Tetrapod - like zno whisker and its applications 四脚状氧化锌晶须及应用
2.
Fractal dimension of tetrapod zno nanowhisker and its characteristics 晶须的分形维数及其特征
3.
A study of preparing and morphology of tetrapod - like zno whiskers 纳米肤色氧化锌的制备新工艺研究
4.
Preparation and electromagnetic performance of tetrapod - shaped zno whiskers 四脚状氧化锌晶须的微波电磁性能
5.
Standard practice for the operation of the tetrapod walker drum tester 四撑点式地毡踩踏滚筒试验仪的标准操作规程
6.
Study of field emission display of tetrapod - like nanostructures zno cathode 四脚状纳米氧化锌阴极的场致发射显示研究
7.
At 700 , zno nanostructures with tetrapod - like and wire - like morphologies were synthesized using thermal evaporation method 摘要700下,利用热蒸发方法制得四角状和线状氧化锌纳米结构。
8.
Today this group , the tetrapods , encompasses everything from birds and their dinosaur ancestors to lizards , snakes , turtles , frogs and mammals , including us 今日,这群所谓的四足动物包括了许多物种,从鸟类及?们的恐龙祖先,到蜥蜴、蛇、乌龟、青蛙、哺乳类,当然也包括我们人类。
9.
The first tetrapods , or land - living vertebrates , appeared during the devonian , as did the first terrestrial arthropods , including wingless insects and the earliest arachnids which had already ventured onto land during the silurian 第一tetrapods ,或土地生存脊椎动物,出现在泥盆纪期间,象第一地球节肢动物,包括已经冒险土地在西里瑞斯人期间的无翼的昆虫和最早期的蜘蛛纲的动物。
10.
These discoveries have expanded almost exponentially our understanding of this critical chapter in the history of life on earth ? and turned old notions about early tetrapod evolution , diversity , biogeography and paleoecology on their heads 这些发现让我们对地球生命史上重要章节的了解,几乎有了巨幅的成长,也因而改写了我们过去对于早期四足动物演化、多样性、生物地理学及古生物学的观念。
