Abstract
Electrochemical oxidation of bis(ethylenedithio)tetraselenafulvalene (BETS) has been investigated. Simple and complex dicyanamides of transition metals (Mn 2+, Ni 2+ and Fe 2+) were used as electrolytes. The correlation between composition of prepared radical cation salts and metal nature in electrolytes was established. Manganese dicyanamides provide the formation of BETS salts with the {Mn[N(CN) 2] 3}- and [N(CN) 2]-XH 2O anions. When Ni- or Fe-containing electrolytes were used only metalless BETS salts, α″-BETS 2[N(CN) 2]·2H 2O ( I) and θ-BETS 2[N(CN) 2]·3.6H 2O ( II), formed. Structures and conducting properties of these salts were analyzed. Both salts exhibit layered structure. Conducting radical cation layers have α″ (I)- or θ -type ( II). Anion sheets appear as two-dimensional polymer networks of different types. These networks are formed by [N(CN)] 2 − anions and water molecules interlinked by hydrogen bonds. Salt I is a semiconductor and II demonstrates resistance drop down to150 K at normal pressure and down to 72 K at ∼0.4 kbar pressure.
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