采用单一的荷电纳滤膜是不能实现同名离子和反荷离子之间的高效分离的。
Good separation of co-ions and counter ions cannot be achieved by a single type of the singly charged NF membranes.
接着,在暴露的第一导电层的表面上形成一导电纳米粒子层。
The next, an electric conduction nanometer particle layer is formed on the surface of the exposed first conducting layer.
图尔说:“分离导电纳米管的过程很可怕,它们真难分离出来。”
Separating out the conducting nanotubes is "a horrid experience," Tour says. "They're very painful to separate."
零阻抗;无穷大阻抗;零阻抗-无穷大电纳;无穷大阻抗-零电纳。
Zero reactance; Infinite reactance; Zero reactance - Infinite susceptance; Infinite reactance - Zero susceptance.
提出了一种基于节点电纳摄动改造配电网全节点导纳矩阵可逆性的方法。
Then, an efficient method for upgrading the reversibility of full bus admittance matrix of a distribution network is proposed by perturbing shunt susceptance.
具有超疏水性能的多孔导电纳米铜薄膜材料的制备方法属于表面技术领 域。
The invention discloses a method for manufacturing a porous conductive nanometer copper film with super-hydrophobic performance, belonging to the surface technical field.
图尔所在实验室发明的纳米管混合体中,既含半导电的纳米管,又有导电纳米管。
The mixture of nanotubes created in Tour’s lab includes both semiconducting nanotubes and conducting nanotubes.
同时我们还测量到了铁电纳米微畴的反转引起的力学响应,这与其介电响应结果是一致的。
Mechanical response induced by the relaxation of nano-domains has been observed as well, which is consistent with dielectric measurements.
之后,再于接触窗开口内形成一第二导电层,覆盖导电纳米粒子层,以形成一接触窗结构。
Then, a second conducting layer is formed inside the opening of conducting window, which covers the electric nanometer particle layer to form a contact window.
开关元件包括一输入节点、一输出节点、以及具有至少一个导电纳米管的纳米管通道元件。
A switching element includes an input node, an output node, and a nanotube channel element having at least one electrically conductive nanotube.
总体上讲,采用单一的荷电纳滤膜是不能同时取得同名离子之间和反离子之间的高效分离的。
It can be concluded that good separation of both co-ions and counter ions cannot be achieved by a single type of the singly charged NF membranes.
对近年来有关铁电纳米粉体、纳米复合材料、以及纳米陶瓷的制备,结构和性能进行了介绍。
The preparation, structure and properties of ferroelectric nanometer sized powders, nanocomposites, and nanoceramics were introduced.
在压电纳米管方面的成就预示着将来能利用血流来给ipods、手机和其他移动电子设备供应能量。
Heralded by advancements in piezoelectric nanowires, the development may one day harness the flow of blood to power ipods, cellphones and other portable electronics.
鲍哲南团队使用了一种聚合物,通过环绕半导体纳米管和非导电纳米管混合物,能够有选择地将它们分类。
Bao's group USES a polymer that selectively sorts the mixture by wrapping around semiconducting nanotubes, and not conducting nanotubes.
这项新技术用一根轻微加热的探针在石墨烯氧化物上“写上”导电纳米线,而石墨烯正是制造柔性电子设备的理想选择。
The new technique involves "writing" electrically conducting nanowires onto graphene oxide using a tiny heated tip and could be ideal for making flexible electronic devices.
所以,研究组成员想出了一个办法,将导电纳米管覆在一聚合体上,这样不仅可以保护电荷,而且还能使油墨完全呈半导体性质。
So instead, the team devised a way to coat the conducting nanotubes in a polymer to protect the electric charge and allow the ink to be purely semiconducting.
该模型基于功率注入法,考虑了所在线路的对地电纳,且直观、简单、通用,适用于FACTS元件的多种运行方式和所有的FACTS设备。
This model based on power injection method, is intuitive, convenient and versatile, and can be used for various functional modes of FACTS devices and all FACTS devices.
该模型基于功率注入法,考虑了所在线路的对地电纳,且直观、简单、通用,适用于FACTS元件的多种运行方式和所有的FACTS设备。
This model based on power injection method, is intuitive, convenient and versatile, and can be used for various functional modes of FACTS devices and all FACTS devices.
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