为什么不使用光蚀刻法制造奈米结构?
在第二章节中,我们研发出一种合成奈米结构材料的新颖方法。
In Chapter 2, we have demonstrated a novel synthesis methodology for nanostructured materials.
因此,氧化铟锡一维奈米结构有很大的潜力应用于光电元件系统。
Therefore, ITO nanowires may have potential applications for optoelectronic devices system.
他表示该奈米结构应用于电池的阴极,下一步是促进电池的阳极,并促进电池的储电能力。
Since the nanostructure is applied to a battery's cathode, he said, the next step is to study improving the anode, along with further increasing battery density.
他表示该奈米结构应用于电池的阴极,下一步是促进电池的阳极,并促进电池的储电能力。
Since the nanostructure is applied to a battery's cathode, he said, the next step is to study improving the anode , along with further increasing battery density.
布劳恩表示该奈米结构不能避免退化,但是该处理会延迟退化,因为它的效率是传统电池的10倍。
The nanostructure isn't immune to degrading, but this process is prolonged because its efficiency is 10 times greater than conventional batteries, Braun said.
本实验利用两种不同 制程的气凝法将奈米氮化镓沉积在液态氮冷凝阱上,收集此奈米粉进行更深入的光学及结构分析。
This study is focus on studying the structural and optical properties of GaN nanopowders that are synthesized by two kinds of gas condensation methods.
本实验利用两种不同 制程的气凝法将奈米氮化镓沉积在液态氮冷凝阱上,收集此奈米粉进行更深入的光学及结构分析。
This study is focus on studying the structural and optical properties of GaN nanopowders that are synthesized by two kinds of gas condensation methods.
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