Jessica Hilbert scite author profile

The distinct control of the synthesis parameters achieved crystallization of five new inorganic-organic hybrid tin sulfides with 1,10-phenanthroline (phen) as the organic component: {[Mn(phen)2]2(μ2-Sn2S6)} (1, 3), {[Mn(phen)2]2(μ2-Sn2S6)}·phen (2), {[Mn(phen)2]2(μ2-Sn2S6)}·phen·H2O (4), and {[Mn(phen)2]2[μ-η(2)-η(2)-SnS4]2[Mn(phen)]2}·H2O (5). Compounds 1, 3, and 4 occur successively under static conditions by increasing the reaction time up to 8 weeks. Stirring the reaction mixtures and keeping the educt ratio constant allow preparation of distinct phase pure samples within very short reaction times. At higher autogenous pressure, crystallization and conversion of several compounds are suppressed, and only 1 crystallized. Compound 2 could only be obtained in glass tubes at low pH value of the reaction mixture or at low amine concentration. Adjusting the pH value of the solution, the concentration, and the volume of the solvent, compounds 1-4 crystallize sequentially and were successively converted into each other. Results of thermal stability experiments and solubility studies suggest that compounds 1 and 3 are polymorphs following the density rule. Compounds 2 and 4 may be viewed as pseudopolymorphs of 1 and 3.

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Utilization of mixtures of aromatic N-donor ligands of different coordination ability for the solvothermal synthesis of thiostannate containing molecules

Hilbert

Näther

Bensch

2015

Dalton Trans.

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Utilization of mixtures of differently coordinating aromatic N-donor ligands leads to the formation of the two new compounds {[Ni(phen)2]2Sn2S6}·4,4'-bipy·½H2O I and {[Ni(phen)2]2Sn2S6}·2,2'-bipy II that could be prepared under solvothermal conditions (4,4'-bipy = 4,4'-bipyridine, C10H8N2; phen = 1,10-phenanthroline, C12H8N2; 2,2'-bipy = 2,2'-bipyridine, C10H8N2). In the structures of both compounds Ni-S bond formation is observed which is highly unusual when only bidentate N-donor ligands are applied in the reaction mixture. The detailed analysis of the crystal structure indicates that the presence of 4,4'-bipy and 2,2'-bipy molecules are essential for the stabilization of the arrangement of the constituents. The main structural motif {[Ni(phen)2]2Sn2S6} is arranged generating off center parallel stacking of the phen ligands. The empty spaces between the {[Ni(phen)2]2Sn2S6} moieties are occupied by either 2,2'-bipy (I) or 4,4'-bipy (II) molecules which are oriented towards the phen ligands to form intermolecular π-π interactions.

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The [Sn₂S₆]^4– Anion Acting as Tetradentate Linker: Solvothermal Synthesis and Selected Properties of {[TM(phen)₂]₂Sn₂S₆} and {[TM(phen)₂]₂Sn₂S₆}·phen·H₂O (TM = Fe, Co)

Hilbert¹,

Näther²,

Bensch³

2014

Zeitschrift anorg allge chemie

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Room-Temperature Synthesis of Thiostannates from {[Ni(tren)]₂[Sn₂S₆]}_n

et al. 2016

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The compound {[Ni(tren)]2[Sn2S6]}n (1) (tren = tris(2-aminoethyl)amine, C6H18N4) was successfully applied as source for the room-temperature synthesis of the new thiostannates [Ni(tren)(ma)(H2O)]2[Sn2S6]·4H2O (2) (ma = methylamine, CH5N) and [Ni(tren)(1,2-dap)]2[Sn2S6]·2H2O (3) (1,2-dap = 1,2-diaminopropane, C3H10N2). The Ni-S bonds in the Ni2S2N8 bioctahedron in the structure of 1 are analyzed with density functional theory calculations demonstrating significantly differing Ni-S bond strengths. Because of this asymmetry they are easily broken in the presence of an excess of ma or 1,2-dap immediately followed by Ni-N bond formation to N donor atoms of the amine ligands thus generating [Ni(tren)(amine)](2+) complexes. The chemical reactions are fast, and compounds 2 and 3 are formed within 1 h. The synthesis concept presented here opens hitherto unknown possibilities for preparation of new thiostannates.

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Jessica Hilbert

Influence of the Synthesis Parameters onto Nucleation and Crystallization of Five New Tin–Sulfur Containing Compounds

Utilization of mixtures of aromatic N-donor ligands of different coordination ability for the solvothermal synthesis of thiostannate containing molecules

The [Sn₂S₆]^4– Anion Acting as Tetradentate Linker: Solvothermal Synthesis and Selected Properties of {[TM(phen)₂]₂Sn₂S₆} and {[TM(phen)₂]₂Sn₂S₆}·phen·H₂O (TM = Fe, Co)

Room-Temperature Synthesis of Thiostannates from {[Ni(tren)]₂[Sn₂S₆]}_n

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Jessica Hilbert

Influence of the Synthesis Parameters onto Nucleation and Crystallization of Five New Tin–Sulfur Containing Compounds

Utilization of mixtures of aromatic N-donor ligands of different coordination ability for the solvothermal synthesis of thiostannate containing molecules

The [Sn2S6]4– Anion Acting as Tetradentate Linker: ­Solvothermal Synthesis and Selected Properties of {[TM(phen)2]2Sn2S6} and {[TM(phen)2]2Sn2S6}·phen·H2O (TM = Fe, Co)

Room-Temperature Synthesis of Thiostannates from {[Ni(tren)]2[Sn2S6]}n

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The [Sn₂S₆]^4– Anion Acting as Tetradentate Linker: Solvothermal Synthesis and Selected Properties of {[TM(phen)₂]₂Sn₂S₆} and {[TM(phen)₂]₂Sn₂S₆}·phen·H₂O (TM = Fe, Co)

Room-Temperature Synthesis of Thiostannates from {[Ni(tren)]₂[Sn₂S₆]}_n