Reactivity of Chalcogenostannate Salts: Unusual Synthesis and Structure of a Compound Containing Ternary Cluster Anions [Co4(μ4-Se)(SnSe4)4]10

Abstract: Dedicated to Professor Dieter Fenske on the occasion of his 60th birthdayThe stabilization of binary aggregates of main group elements [E 0x E y ] qÀ in the coordination sphere of transitionmetal ions M nþ (E' or E ¼ Group 13±15 or 16 element), and thus the formation of structures that contain ternary heavy atom frameworks, is an area of increasing research activity. [1±16] Besides diverse range of molecular and crystal structures, the synthesis of some ternary M/E'/E systems that show polymeric anion substru… Show more

“…It is well known that group 13 (Ga, In) and 14 (Ge, Sn) metals normally combined with chalcogen elements (S, Se, Te) in tetrahedral geometry and formed M′Q 4 tetrahedra [26][27][28], which are the primary building units in setting up the structures of 1D chalcogenides. For group 13 metals, the M′Q 4 tetrahedra usually connect to each other via edge-sharing and generate a large number of [M′Q 2 ] n n− (M′¼Ga, In; Q¼ S, Se, Te) chains, which are templated by alkali metals, organic amines, and transition-metal complexes [29][30][31][32][33][34][35][36] [47][48][49][50].…”

Solvothermal syntheses of three new one-dimensional ternary selenidostannates: [DBNH][M1/2Sn1/2Se2] (M=Mn, Zn, Hg)

“…It is well known that group 13 (Ga, In) and 14 (Ge, Sn) metals normally combined with chalcogen elements (S, Se, Te) in tetrahedral geometry and formed M′Q 4 tetrahedra [26][27][28], which are the primary building units in setting up the structures of 1D chalcogenides. For group 13 metals, the M′Q 4 tetrahedra usually connect to each other via edge-sharing and generate a large number of [M′Q 2 ] n n− (M′¼Ga, In; Q¼ S, Se, Te) chains, which are templated by alkali metals, organic amines, and transition-metal complexes [29][30][31][32][33][34][35][36] [47][48][49][50].…”

Solvothermal syntheses of three new one-dimensional ternary selenidostannates: [DBNH][M1/2Sn1/2Se2] (M=Mn, Zn, Hg)

“…We are interested in synthesizing and characterizing systems with ternary structural units by the reaction of ortho‐selenostannate anions [SnSe 4 ] 4− , the behavior of which towards transition metal compounds is still largely unknown. In the course of our investigations,8, 9 we recently isolated and structurally characterized quaternary compounds [K 22 (MeOH) 17 (H 2 O) 8 ][Co 4 (μ 4 ‐Se)(SnSe 4 ) 4 ] ( 1 a ),9a [K 36 (μ 6 ‐Cl) 2 (H 2 O) 11 (MeOH) 32 ][SnSe 4 ][Co 4 (μ 4 ‐Se)(SnSe 4 ) 4 ] 3 ( 1 b )9 and [K 10 (H 2 O) 16 (MeOH) 0.5 ][M 4 (μ 4 ‐Se)(SnSe 4 ) 4 ] (M=Zn: 2 , M=Mn: 3 ),9c which contain the formerly unknown type of ternary selenide anion [M 4 (μ 4 ‐Se)(SnSe 4 ) 4 ] 10− . Compounds 1 – 3 were obtained by reactions of K 4 [SnSe 4 ]10 or K 4 [SnSe 4 ]⋅1.5 MeOH9c with [Co(en) 3 ]Cl 3 (en=1,2‐diaminoethane), MnCl 2 ⋅4 H 2 O, or ZnCl 2 in H 2 O/MeOH.…”

Ortho‐Chalcogenostannates as Ligands: Syntheses, Crystal Structures, Electronic Properties, and Magnetism of Novel Compounds Containing Ternary Anionic Substructures [M₄(μ₄‐Se)(SnSe₄)₄]¹⁰⁻ (M=Mn, Zn, Cd, Hg), ${{{\hfill 3\atop \hfill \infty }}}${[Hg₄(μ₄‐Se)(SnSe₄)₃]⁶⁻}, or ${{{\hfill 1\atop \hfill \infty }}}${[HgSnSe₄]²⁻}

“…Under relatively mild conditions, the molecular building blocks can be assembled to a fascinating variety of quaternary chacolgenides. However solvothermal synthesis has produced a limited number of quaternary chalcogenides up to now [10][11][12][13][14]. To some extent, this situation results from deficient research on mineralizers for the synthesis.…”

Solvothermal syntheses and structures of A3AgSn3Se8 (A=Rb, K)