On the basis of stable alkaline earth metal ammines, a series of M(NH3)(6)NaCl and M(NH3)(6)Na-2 (M = Mg and Ca) excess electron compounds were theoretically constructed and studied by using the density functional theory. The electride or alkalide characteristics of these compounds are verified by their electronic structures, HOMOs, and small VIE values. It is worth noting that the M(NH3)(6)Na-2 alkalides have novel electronic structures that contain double alkali metal anions. As expected, all the noncentrosymmetric M(NH3)(6)NaCl and M(NH3)(6)Na-2 compounds possess considerable first hyperpolarizabilities (beta(0)) up to 123050 au, which can be attributed to low excitation energies (Delta Es) and large oscillator strength (f(0)) of their crucial excited states. In addition, results reveal that the Ca(NH3)(6)-based species with lower DEs and larger transition moments (Delta mu) show larger beta(0) values compared with the corresponding Mg(NH3)(6)-based ones with similar geometries. This study may be significant in terms of designing excess electron compounds of new-type, especially alkalides with multiple alkali metal anions.

• 出版日期2015
• 单位吉林大学