Coinage metalides: a new class of excess electron compounds with high stability and large nonlinear optical responses

The possibility of using coinage metal atoms as excess electron acceptors is examined for the first time by designing a new class of M + -1- M′ − (M = Li, Na, and K; M′ = Cu, Ag, and Au) compounds termed "coinage metalides" on the basis of an intriguing Janus-type all- cis 1,2,3,4,5,6-hexafluorocyclohexane ( 1 ) molecule. Under the large facial polarization of 1 , the outermost n s 1 electrons of alkali metal atoms can be transferred to coinage metal atoms, forming diffuse excess electrons around them. Consequently, the resulting M + -1- Cu − and M + -1- Ag − compounds exhibit significantly large nonlinear optical (NLO) responses. In particular, these novel M + -1- M′ − compounds exhibit much higher stability (larger VIEs and E c values) than that of the corresponding M + · 1 ·M′ − (M, M′ = Li, Na, and K) alkalides. We hope this work could open up new possibilities for NLO material design by using coinage metal atoms as excess electron acceptors and, on the other hand, attract more experimental interest and efforts to synthesize such stable compounds in the laboratory. A new class of NLO molecules, termed coinage metalides, was designed by using coinage metal atoms as excess electron acceptors.