在超级电容中,离子和带相反电荷的电极之间的距离非常小,需要用纳米(千分之一微米)计算。
In an ultracapacitor, the distance between the ions and opposite-charged electrode is so tiny it's measured in nanometers (one-thousandth of a micron).
制作这种纳米级的金属线需要将一种有机分子和镓盐的混合物置于一个超级干净的银薄片上。
Production of such nanoscale wires need to be a kind of organic molecules and gallium salt mixture placed in a super-clean silver foil.
我的朋友现在都是些发明超级电脑、基因药物、搜索引擎、纳米技术、光线通信以及其他一切新兴事物的人。
My friends now are the folks inventing super computers, genetic pharmaceuticals, search engines, nanotechnology, fiber optic communications, and everything that is new.
为拓展碳纳米管的实际应用,对碳纳米管应用于超级电容器的电极材料的特点作了深入分析。
The features of carbon nanotube electrodes for fabricating supercapacitors were analyzed to provide data for practical application of carbon nanotubes.
微型固态灯。超级鲜艳的红色(峰值波长660纳米)。镜头类型红色扩散。
Subminiature solid state lamp. Super bright red (peak wavelength 660 nm). Lens type red diffused.
微型固态灯。超级明亮的绿色(峰值波长565纳米)。镜头类型,水质清澈。
Subminiature solid state lamp. Super bright green (peak wavelength 565 nm). Lens type water clear.
一个国家有没有资格成为超级大国,人均GDP不是特别有用的度量,与纳米比亚比较,只是浅薄的妄语。
GDP per capita is not a particularly useful measure of what qualifies a country as a superpower, and the comparison with Namibia is just facile nonsense.
斯坦福大学的科学家利用在日常文件的形式纳米技术快速生产超轻量,可弯曲电池和超级电容器。
Stanford scientists are harnessing nanotechnology to quickly produce ultra-lightweight, bendable batteries and supercapacitors in the form of everyday paper.
斯坦福大学的科学家利用在日常文件的形式纳米技术快速生产超轻量,可弯曲电池和超级电容器。
Stanford scientists are harnessing nanotechnology to quickly produce ultra-lightweight, bendable batteries and supercapacitors in the form of everyday paper.
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