N,N'-DICYANOQUINONE DIIMINES (DCNQIS) - UNIQUE ACCEPTORS FOR CONDUCTING MATERIALS

Replacement of the classical acceptor TCNQ with (substituted) DCNQIs o pens new routes to organic conducting materials. The radical anion sal ts [2,5-R(1),R(2)-DCNQI](2)M (R(1),R(2)=Hal, Me, MeO; M = Li, Na, K, N H4, Gu, Ag, TI) all belong to the same space group 14(1/a) or related ones (C2/c or P4/n); therefore, the correlation between molecular size and electronic effects of the substituents and bulk properties (condu ctivity, susceptibility, etc.) can be evaluated. Only the copper salts display metallic conductivity, some of which undergo a phase transiti on (T-M-->I) to a semiconductor on cooling. For this transition a thre shold coordination angle N-C-N is found, by changing which an unpreced entedly large isotope effect upon deuteriation of [2,5-Me(2)DCNQI](2) can be induced. Upon the transition T-M-->I the conductivity decreased by a factor of 10(7)-10(8).