...网 分子的电离能(Ionizationpotential,IP),而 LUMO能级的底边(远离真空能级)则对应材料的电子亲和势(Electron affinity,EA)。有机电致发光材料的电子亲和势和离化能决定了电子和空穴的注入 效率。
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详细地分析了团簇的结构特征,平均结合能,垂直电离势,垂直电子亲和能,电荷转移以及成键特征。
Structural features, binding energies, vertical ionization potentials, vertical electron affinity, charge transfers, and binding characters were evaluated for each au-ni binary cluster.
本文对体系的电子亲和能(EA)以及离化势(IP)也进行了讨论。
The electronic affinities (EA) and ionization potential (IP) also had been discussed in this work.
金刚石因具有高硬度、高热导率、负电子亲和势等优点而成为场发射阴极的首选材料之一。
With the merits of high hardness, high thermal conduction, negative electron affinity, diamond is deemed one of the preferred materials of the field emission cathode.
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