Polymer band gap engineering is a new field on semiconducting polymers research. It is important for applications of semiconducting polymers and improvement of properties of their devices.
聚合物能带隙工程作为半导体聚合物研究的新兴领域,对于半导体聚合物材料的应用以及半导体聚合物器件的各项性能的提高起着非常重要的作用。
The polymer in Bao's process does not need to be removed. The final product is a semiconducting nanotube and polymer ink that can be used to make printable electronics.
鲍哲南团队发现的这种聚合物不需要被移除,最终的产品是一种半导体纳米管和聚合物油墨,能够用于制造可印刷电子产品。
Mixing the polymer with commercially available carbon nanotubes in a solvent separates semiconducting tubes from conducting tubes.
把这种聚合物和碳纳米管在一种溶剂中混合,可以将半导体管和导体管分离开。
Bao's group USES a polymer that selectively sorts the mixture by wrapping around semiconducting nanotubes, and not conducting nanotubes.
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。
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.
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.
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。
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