Molecular magnetic semiconductors formed by cationic and anionic networks: (ET)2Mn[N(CN)2]3 and (ET)2CuMn[N(CN)2]4

Abstract: Crystals of (ET) 2 Mn[N(CN) 2 ] 3 (1) and (ET) 2 CuMn[N(CN) 2 ] 4 (2) with mono-and first bimetal dicyanamide anions were obtained and their structure, conducting and magnetic properties were investigated. The structure of 2 is not typical for ET radical cation salts and is characterized by the presence of a 3D polymeric anion built into the ET radical cation layers. The crystals of 1 exhibit a semiconducting behavior of conductivity and 2 undergoes a semiconductor I-semiconductor II phase transition at 295-29… Show more

“…When the Co[N(CN) 2 ] 2 Á H 2 O salt in 1.1.2-trichloroethane was employed as electrolyte, crystals of ET 3 CoCl 4 and ET 3 Cl 2 Á 2H 2 O were formed (the compositions of the salts ET 3 CoCl 4 and ET 2 CuCl 2 were determined by using energy dispersion X-ray spectroscopy and X-ray analysis, respectively). The combination of two salts Mn[N(CN) 2 ] 2 and CuCl as electrolyte yielded the ET 2 CuMn[N(CN) 2 ] 4 and ET 2 CuCl 2 crystals [30]. We studied the electrochemical oxidation of ET in the presence of a mixed electrolyte including Co[N(CN) 2 ] 2 and CuCl and obtained two types of crystals.…”

“…When using a Mn salt instead of the Cu one crystals of ET 2 Mn[N(CN) 2 ] 3 were obtained [29,30]. When the Co[N(CN) 2 ] 2 Á H 2 O salt in 1.1.2-trichloroethane was employed as electrolyte, crystals of ET 3 CoCl 4 and ET 3 Cl 2 Á 2H 2 O were formed (the compositions of the salts ET 3 CoCl 4 and ET 2 CuCl 2 were determined by using energy dispersion X-ray spectroscopy and X-ray analysis, respectively).…”

“…Compound k 00 -Cl k 0 -Cl [13] k-Cl [13] Crystal system Monoclinic Orthorhombic 30.420 (7) 12.963 (2) 12.963 (2) showed that one type of crystals (strips-like crystals) are those of the already known radical cation salt ET 2 CuCl 2 [23], while the other (rhombus-like crystals) have the same composition, (ET) 2 Cu[N(CN) 2 ]Cl, of the k-Cl and k 0 -Cl salts. As it is the case for these two salts, it is characterized by a k-type arrangement of the ET conducting layers but now the structure is monoclinic, in contrast with the orthorhombic structure of the k-and k 0 -Cl salts (see Table 1).…”

The first polymorph, κ″-(ET)2Cu[N(CN)2]Cl, in the family of κ-(ET)2Cu[N(CN)2]X (X=Cl, Br, I) radical cation salts

“…When the Co[N(CN) 2 ] 2 Á H 2 O salt in 1.1.2-trichloroethane was employed as electrolyte, crystals of ET 3 CoCl 4 and ET 3 Cl 2 Á 2H 2 O were formed (the compositions of the salts ET 3 CoCl 4 and ET 2 CuCl 2 were determined by using energy dispersion X-ray spectroscopy and X-ray analysis, respectively). The combination of two salts Mn[N(CN) 2 ] 2 and CuCl as electrolyte yielded the ET 2 CuMn[N(CN) 2 ] 4 and ET 2 CuCl 2 crystals [30]. We studied the electrochemical oxidation of ET in the presence of a mixed electrolyte including Co[N(CN) 2 ] 2 and CuCl and obtained two types of crystals.…”

“…When using a Mn salt instead of the Cu one crystals of ET 2 Mn[N(CN) 2 ] 3 were obtained [29,30]. When the Co[N(CN) 2 ] 2 Á H 2 O salt in 1.1.2-trichloroethane was employed as electrolyte, crystals of ET 3 CoCl 4 and ET 3 Cl 2 Á 2H 2 O were formed (the compositions of the salts ET 3 CoCl 4 and ET 2 CuCl 2 were determined by using energy dispersion X-ray spectroscopy and X-ray analysis, respectively).…”

“…Compound k 00 -Cl k 0 -Cl [13] k-Cl [13] Crystal system Monoclinic Orthorhombic 30.420 (7) 12.963 (2) 12.963 (2) showed that one type of crystals (strips-like crystals) are those of the already known radical cation salt ET 2 CuCl 2 [23], while the other (rhombus-like crystals) have the same composition, (ET) 2 Cu[N(CN) 2 ]Cl, of the k-Cl and k 0 -Cl salts. As it is the case for these two salts, it is characterized by a k-type arrangement of the ET conducting layers but now the structure is monoclinic, in contrast with the orthorhombic structure of the k-and k 0 -Cl salts (see Table 1).…”

The first polymorph, κ″-(ET)2Cu[N(CN)2]Cl, in the family of κ-(ET)2Cu[N(CN)2]X (X=Cl, Br, I) radical cation salts

“…1) are described in [15,16], in which the contributions of BEDT-TTF and Mn to the electron spin resonance (ESR) signal are distinguished and recognized.…”

“…Recently the synthesis and magnetic properties of a new spin-frustrated compound (BEDT-TTF) 2 Mn[N(CN) 2 ] 3 have been reported [14][15][16]. The Mn[N(CN) 2 ] 3 complexes forming a triangular planar lattice ( Fig.…”

Effect of Mn²⁺ spin frustrations on spin dynamics of charge carriers in (BEDT‐TTF)₂Mn[N(CN)₂]₃ crystals

Spin Frustration in Organic Radicals