From a Metastable Layer to a Stable Ring: A Kinetic Study for Transformation Reactions of Li2Mo3TeO12 to Polyoxometalates

Oh, Seung‐Jin; Lim, Seong‐Ji; You, Tae‐Soo; Ok, Kang Min

doi:10.1002/chem.201704755

Cited by 12 publications

(10 citation statements)

References 48 publications

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“…Ag 2 Mo 3 SeO 12 (Ling & Albrecht-Schmitt 2007), Li 2 Mo 3 TeO 12 (Oh et al, 2018) and A 4 Mo 6 Te 2 O 24 Á6H 2 O (A = Rb, K) (Vidyavathy Balraj & Vidyasagar 1998) compounds are quaternary selenite and tellurites of molybdenum, whose [Mo 3 XO 12 ] 2À (X = Se, Te) anionic framework structures are not related to HTO. They have centrosymmetric layered and zero-dimensional structures and contain pyramidally coordinated Se 4+ and pyramidally and disphenoidally coordinated Te 4+ ions.…”

Section: Chemical Contextmentioning

confidence: 99%

“…Ag 2 Mo 3 SeO 12 (Ling & Albrecht-Schmitt 2007), Li 2 Mo 3 TeO 12 (Oh et al, 2018) In this context, the structural characterization of new and known quaternary A 2 W 3 SeO 12 (A = NH 4 , Cs, Rb, K, Tl) selenites of tungsten(VI) by single-crystal X-ray diffraction was considered necessary for their complete structural study and, therefore, was undertaken. This report is concerned with crystal growth by solid-state reactions and structural characterization of the known compounds A 2 W 3 SeO 12 [A = NH 4 (1), Cs (2) and Rb (3)] and new compounds K 2 W 3 SeO 12 (4a) and Tl 2 W 3 SeO 12 (5).…”

Section: Chemical Contextmentioning

confidence: 99%

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Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Balisetty

Vidyasagar

2021

Acta Cryst E

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The quaternary A 2W3SeO12 (A = NH4, Cs, Rb, K or Tl) selenites have been prepared in the form of single crystals by hydrothermal and novel solid-state reactions. They were characterized by X-ray diffraction, thermal and spectroscopic studies. All of them have a hexagonal tungsten oxide (HTO) related [W3SeO12]2− anionic framework with pyramidally coordinated Se4+ ions. The known A 2W3SeO12 (A = NH4, Cs or Rb) compounds are isostructural with the Cs2W3TeO12 compound and have a non-centrosymmetric layered structure containing intra-layer Se—O bonds. The new compound K2W3SeO12(α) is isostructural with the K2W3TeO12 compound and has a centrosymmetric three-dimensional structure containing interlayer Se—O bonds. It is inferred that the new Tl2W3SeO12 compound has the same three-dimensional structure as K2W3SeO12(α).

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Section: Chemical Contextmentioning

confidence: 99%

Section: Chemical Contextmentioning

confidence: 99%

Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Balisetty

Vidyasagar

2021

Acta Cryst E

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“…It is reported that combination of two different functional units to one compound is an effective method to create novel NCS and SHG materials. − Additionally, different building blocks are suitable for producing brand new anion frameworks and enrich the structure chemistry of the inorganic compounds. − We have been interested in assembling lone-pair electrons and tetrahedral groups together to make new NCS architectures and SHG materials for decades. − The LPE groups were focused on selenite or tellurite containing Se(IV) or Te(IV) cations. We created the first boroselenite B 2 Se 2 O 7 , which is composed of SeO 3 triangle pyramids and BO 4 tetrahedra and crystallized in the chiral space group of P 2 1 2 1 2 1 .…”

Section: Introductionmentioning

confidence: 99%

Two Indium Sulfate Tellurites: Centrosymmetric In₂(SO₄)(TeO₃)(OH)₂(H₂O) and Non-centrosymmetric In₃(SO₄)(TeO₃)₂F₃(H₂O)

Gong

Ying

et al. 2019

Inorg. Chem.

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Two new indium sulfate tellurites, namely, In 2 (SO 4 )(TeO 3 )-(OH) 2 (H 2 O) and In 3 (SO 4 )(TeO 3 ) 2 F 3 (H 2 O), were synthesized by hydrothermal method in a one-pot reaction. Their pure phase yields have been successfully optimized to 76% and 21%, respectively. In 2 (SO 4 )(TeO 3 )-(OH) 2 (H 2 O) crystallized in centrosymmetric (CS) space group P2 1 /n, while In 3 (SO 4 )(TeO 3 ) 2 F 3 (H 2 O) formed a non-centrosymmetric (NCS) and chiral space group P2 1 2 1 2 1 . The CS compound features a 2D layered structure composed of 2D indium oxide layers decorated by sulfate tetrahedra and tellurite groups. The NCS compound displays a 3D network consisting of indium tellurite layers bridged by sulfate tetrahedra. Powder second harmonic generation measurements disclosed that In 3 (SO 4 )(TeO 3 ) 2 F 3 (H 2 O) exhibits a weak frequency-doubling efficiency about 11% of the commercial KDP. Its powder laser damage threshold quantity was estimated to be 79.6 MW/cm 2 , which is about 36 times that of AGS. The two samples present wide optical band gaps of 4.86 and 4.10 eV, respectively, which were determined by Te, In, and O atoms based on density functional theory calculations.

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“…If the degree of protonation is in the range between 1.0 and 2.0, many molybdenum atoms can be condensed into polyatomic anions such as Mo 7 O 24 6− to form polyoxomolybdates. Recently, our research group proposed a reaction mechanism for an alkali‐metal‐cation‐induced transformation toward a polyoxomolybdate, the structure of which was verified by means of powder X‐ray diffraction analysis . Molybdates can also be easily combined with a variety of organic molecules by controlling the specific experimental conditions to form organic–inorganic hybrid materials .…”

Section: Introductionmentioning

confidence: 99%

“…Recently,o ur research group proposedareaction mechanism for an alkali-metal-cation-induced transformation towardapolyoxomolybdate, the structure of which was verifiedb ymeansofp owder X-ray diffraction analysis. [8] Molybdates can also be easily combined with av ariety of organic molecules by controlling the specific experimental conditions to form organic-inorganic hybrid materials. [9] Notably,afew interesting examples of chiralh ybrid materials containing organic ligands or counter cationsh ave been reported.…”

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confidence: 99%

Histidinium‐Driven Chirality Control of Self‐Assembled Hybrid Molybdenum Oxyfluorides

2019

Chemistry A European J

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Exploring macroscopic chiral materials with extended structures has become an important and fundamental topic in chemistry. To systematically control the chirality of novel organic–inorganic frameworks, histidinium‐based cationic structure‐directing agents containing specific chiral information are introduced. In this way, two chiral compounds, [(l‐hisH2)MoO2F4]3⋅H2O (L) and [(d‐hisH2)MoO2F4]3⋅H2O (D), and an achiral oxyfluoride, (l/d‐hisH2)MoO2F4 (LD) (his=histidine, C6H9N3O2) have been successfully self‐assembled by a slow evaporation method. The structures of these compounds are composed of histidinium cations and distorted [MoO2F4]2− octahedra. Surprisingly, the histidinium cations not only control macroscopic chirality, but also induce O/F ordering in MoO2F4 octahedra through hydrogen‐bonding interactions. Compounds L and D crystallize in the extremely rare polar space group P1, and exhibit positive second harmonic generation (SHG) signals attributable to a net moment originating from the MoO2F4 groups. Solid‐state circular dichroism (CD) spectra indicate that the MoO2F4 units templated by histidinium cations are chirally aligned through ionic interactions. Crystallization processes influenced by the chirality of the reported materials are also discussed herein.

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From a Metastable Layer to a Stable Ring: A Kinetic Study for Transformation Reactions of Li₂Mo₃TeO₁₂ to Polyoxometalates

Cited by 12 publications

References 48 publications

Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Two Indium Sulfate Tellurites: Centrosymmetric In₂(SO₄)(TeO₃)(OH)₂(H₂O) and Non-centrosymmetric In₃(SO₄)(TeO₃)₂F₃(H₂O)

Histidinium‐Driven Chirality Control of Self‐Assembled Hybrid Molybdenum Oxyfluorides

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From a Metastable Layer to a Stable Ring: A Kinetic Study for Transformation Reactions of Li2Mo3TeO12 to Polyoxometalates

Cited by 12 publications

References 48 publications

Structural characterization of quaternary selenites of tungsten(VI), A 2W3SeO12 (A = NH4, Cs, Rb, K or Tl)

Structural characterization of quaternary selenites of tungsten(VI), A 2W3SeO12 (A = NH4, Cs, Rb, K or Tl)

Two Indium Sulfate Tellurites: Centrosymmetric In2(SO4)(TeO3)(OH)2(H2O) and Non-centrosymmetric In3(SO4)(TeO3)2F3(H2O)

Histidinium‐Driven Chirality Control of Self‐Assembled Hybrid Molybdenum Oxyfluorides

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From a Metastable Layer to a Stable Ring: A Kinetic Study for Transformation Reactions of Li₂Mo₃TeO₁₂ to Polyoxometalates

Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Structural characterization of quaternary selenites of tungsten(VI), A ₂W₃SeO₁₂ (A = NH₄, Cs, Rb, K or Tl)

Two Indium Sulfate Tellurites: Centrosymmetric In₂(SO₄)(TeO₃)(OH)₂(H₂O) and Non-centrosymmetric In₃(SO₄)(TeO₃)₂F₃(H₂O)