So high conductivity molecular conductor is easily to get high quality single crystal.
电导率较高的晶体容易生长得到高质量的晶体。
Molecular conductor is the abbreviation for the electrically conducting molecular crystal.
分子导体是具有导电性的分子晶体的简称。
Strong molecular interactions are distinguished a molecular conductor crystal from a normal molecular crystal.
而且分子导体中存在很强的分子间相互作用,远强于普通分子晶体。
The discovery of molecular conductor has significant effects molecular science, solid-state physics and materials science.
分子导体的发现是分子科学、凝聚态物理学及材料科学中的一件大事。
Therefore, if DNA is a conductor, it will be the ideal material for nano-line and molecular electronics.
因此,如果DNA具有导电性,将是纳米导线及分子器件的理想材料。
The experiments of charge transport in DNA molecular have shown that DNA molecular may be conductor, semiconductor or insulator.
DNA分子的电荷输运实验显示DNA分子呈现出导体、半导体、绝缘体等丰富的电学性质。
The experiments of charge transport in DNA molecular have shown that DNA molecular may be conductor, semiconductor or insulator.
DNA分子的电荷输运实验显示DNA分子呈现出导体、半导体、绝缘体等丰富的电学性质。
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