Wen-Qin Mu scite author profile

Thiogermanates, {[Ni(phen)(3)](2)Ge(4)S(10)}·xSol (Sol = 4MeOH·12H(2)O (1) and 24H(2)O (2)) were prepared and characterized by single-crystal structure analysis. There are large quantities of the solvent molecules that cocrystallize with the anions and cations and form a strong hydrogen bonding network (O-H···S and O···H-O-H···O). Reversible yellow-pink color change with fast speed was found for these compounds, when the crystals were immersed in alcohol solvents and water alternately. The time of the solvent-induced color change relates to the molecular size and structure of the alcohols. The smaller the molecule is, the faster the color change will be. The fastest color change was found by using the methanol solvent that took only about one second. The color change also relates to the ratio of water/alcohol. The solvatochromism phenomenon is accompanied with a rapid solvent-induced recrystallization that is verified by the XRD patterns.

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Indium sulfide clusters integrated with 2,2′-bipyridine complexes

Zhang

et al. 2011

Dalton Trans.

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Supertetrahedral compounds of chalcogenometalates (T3 cluster compounds) integrated with Ni-bpy (bpy = 2,2'-bipyridine) complex were prepared by a solvothermal technique. The compound [Ni(bpy)(3)](3)[H(4)In(10)S(20)]·bpy·2EG·6H(2)O (Mb-InS-1) (EG = ethylene glycol) consists of discrete T3 clusters of [H(4)In(10)S(20)](6-) with three [Ni(bpy)(3)](2+) cations. The compound [Ni(bpy)(3)](2)[H(2)In(10)S(19)]·bpy·2HEA·2H(2)O (Mb-InS-2) (EA = ethanolamine) is a 1-D polymer, in which zigzag T3 cluster chains are charge balanced by metal-bpy complex cations. The compound [Ni(bpy)(3)](7)[H(4)In(40)S(74)]·7Hbpy·3HEA·8H(2)O (Mb-InS-3) is a 2-D T3 polymer with cation layers of [Ni(bpy)(3)](2+). Integrating M-bpy complex cations into chalcogenido structures has been made with the aim of improving the photoabsorption of the materials. The electronic spectra showed the new bands of cation-anion charge-transfer (CACT) that is mainly caused by the S···H-C(py) contacts between the InS T3 supertetrahedral clusters and the [Ni(bpy)(3)](2+) cations.

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Ion pair charge-transfer thiogermanate salts [MV]₂Ge₄S₁₀·xSol: solvent induced crystal transformation and photocurrent responsive properties

Sun

Zhu

et al. 2014

Dalton Trans.

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As most of the chalcogenidometalate anions are well-known electron-rich systems, design and preparation of ion pair compounds, by integrating an organic acceptor (A) with an inorganic chalcogenidometalate donor (D), are an attractive strategy to obtain new functional materials. We report herein the single-crystal structures and properties of three new ion pair charge-transfer (IPCT) compounds by incorporating thiogermanates with methylviologen (MV(2+), N,N'-dimethyl-4,4'-bipyridinium dication), [MV]2Ge4S10·xSol (Sol = solvent). Sharp and fast solvent-induced color changes and switchable fluorescence emission are observed for the compounds. The weak interactions that relate to the solvent and ions in the structures are likely the key points to modulate the cation-anion charge-transfer. A photocurrent response is observed for the photoelectric system of the IPCT compound upon repetitive switching of light on and off.

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1-D Selenidoindates {[In₂Se₅]}_∞ Directed by Chiral Metal Complex Cations of 1,10-Phenanthroline

Lei

Luo

et al. 2011

Inorg. Chem.

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Two 1-D selenidoindates {[M(phen)(3)]In(2)Se(5)·H(2)O}(n) (M = Ni, Fe) were synthesized by a solvothermal method. The 1-D {[In(2)Se(5)](2-)}(n) anion is a new type of single 1-D structure constituted by an alternately fused four-membered In(2)Se(2) ring and five-membered In(2)Se(3) ring. The chalcogenoindates were separated as mechanical racemic mixtures of single enantiomer crystals, in which the R-helix of 1-D InSe anion is directed by the related clockwise (Δ) cations of [M(phen)(3)](2+) or the L-helix of 1-D anion is directed by the related anticlockwise (Λ) cation. The π···π, C···Se, and C-H···Se oriented interactions of metal complex cations with selenidoindate anions play an important role in the formation of the chiral crystals. The embedded [M(phen)(3)](2+) cations improve the optical absorption of the 1-D semiconductor materials.

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Wen-Qin Mu

Indium−Sulfur Supertetrahedral Clusters Integrated with a Metal Complex of 1,10-Phenanthroline

Ionic Crystals of {[Ni(phen)₃]₂Ge₄S₁₀}·xSol, Showing Solid-State Solvatochromism and Rapid Solvent-Induced Recrystallization

Indium sulfide clusters integrated with 2,2′-bipyridine complexes

Ion pair charge-transfer thiogermanate salts [MV]₂Ge₄S₁₀·xSol: solvent induced crystal transformation and photocurrent responsive properties

1-D Selenidoindates {[In₂Se₅]}_∞ Directed by Chiral Metal Complex Cations of 1,10-Phenanthroline

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Wen-Qin Mu

Indium−Sulfur Supertetrahedral Clusters Integrated with a Metal Complex of 1,10-Phenanthroline

Ionic Crystals of {[Ni(phen)3]2Ge4S10}·xSol, Showing Solid-State Solvatochromism and Rapid Solvent-Induced Recrystallization

Indium sulfide clusters integrated with 2,2′-bipyridine complexes

Ion pair charge-transfer thiogermanate salts [MV]2Ge4S10·xSol: solvent induced crystal transformation and photocurrent responsive properties

1-D Selenidoindates {[In2Se5]}∞ Directed by Chiral Metal Complex Cations of 1,10-Phenanthroline

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Ionic Crystals of {[Ni(phen)₃]₂Ge₄S₁₀}·xSol, Showing Solid-State Solvatochromism and Rapid Solvent-Induced Recrystallization

Ion pair charge-transfer thiogermanate salts [MV]₂Ge₄S₁₀·xSol: solvent induced crystal transformation and photocurrent responsive properties

1-D Selenidoindates {[In₂Se₅]}_∞ Directed by Chiral Metal Complex Cations of 1,10-Phenanthroline