Charge- and anion-orderings in the quasi-one-dimensional organic conductor (TMTTF)2NO3

Abstract

The quasi-one-dimensional organic conductors (TMTTF)2X with non-centrosymmetric anions commonly undergo charge- and anion-order transitions upon cooling. While for compounds with tetrahedral anions (X = BF4-, ReO4-, and ClO4-) the charge-ordered phase is rather well understood, the situation is less clear in the case of planar triangular anions, such as (TMTTF)2NO3. Here we explore the electronic and structural transitions by transport experiments, optical and magnetic spectroscopy. This way we analyze the temperature dependence of the charge imbalance 2δ and an activated behavior of (T) with CO≈ 530~K below T CO = 250~K. Since (TMTTF)2NO3 follows the universal relation between charge imbalance 2δ and size of the gap CO, our findings suggest that charge order is determined by TMTTF stacks with little influence of the anions. Clear signatures of anion ordering are detected at T AO=50~K. The tetramerization affects the dc transport, the vibrational features of donors and acceptors, and leads to formation of spin singlets.