Structural Study of Hydrated/Dehydrated Manganese Thiophene-2,5-diphosphonate Metal Organic Frameworks, Mn2(O3P–C4H2S–PO3)·2H2O

Rueff, Jean‐Michel; Pérez, Olivier; Pautrat, Alain; Barrier, Nicolas; Hix, Gary B.; Hernot, Sylvie; Couthon‐Gourvès, Hélène; Jaffrès, Paul‐Alain

doi:10.1021/ic301187y

Cited by 33 publications

(25 citation statements)

References 76 publications

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“…32 This work was carried out within a context that aimed to study that aimed to examine the use of rigid phosphonic acid derivatives 33 , 34 as building blocks for the construction of crystalline hybrids under hydrothermal conditions to produce fluorescent, 35 thermally stable 36 and non-centrosymmetic materials. 37,38 For Through the study of the construction synthesis of silver-based hybrids we produced materials were produced with which couldthe potentially of acting as a reservoir of silver ions i.e. theyat could, via a disassembling of the hybrid in an aqueous media, exhibit bactericidal properties.…”

Section: Introductionmentioning

confidence: 99%

Silver-Based Hybrid Materials from meta- or para-Phosphonobenzoic Acid: Influence of the Topology on Silver Release in Water

et al. 2015

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(Word Style "BD_Abstract").Three novel silver-based Metal Organic Frameworks materials which were synthesized from either 3-phosphono or 4-phosphonobenzoic acid and silver nitrate are reported. The novel hybrids were synthesized under hydrothermal conditions; the pH of the reaction media was controlled by adding different quantities of urea thereby producing different topologies.Compound 1 (Ag3(4-PO3-C6H4-COO)), synthesised in presence of urea, exhibits a compact 3D structure in which both phosphonic acid and carboxylic acid functional groups are linked to the silver-based inorganic network. Compound 2 (Ag(4-PO3H-C6H4-COOH)), which was synthesized at lower pH (without urea), has a layered structure in which only the phosphonic acid functional groups from 4-phosphonobenzoic acid moieties are linked to the silver inorganic network; the carboxylic acid groups being engaged in hydrogen bonds. Finally, material 3 (Ag(3-PO3H-C6H4-COOH)) was synthesised from 3-phosphonobenzoic acid and silver nitrate without urea. This material 3 features a layered structure exhibiting carboxylic acid functional groups linked via hydrogen bonds in the interlayer space. After the full characterization of these materials (single X-ray structure, IR, TGA), their ability to release silver salts in aqueous environment was measured. Silver release, determined in aqueous solution by cathodic stripping voltammetry, shows that the silver release capacity of these materials is dependent on the topology of the hybrids. The more compact structure 1 is extremely stable in water with only trace levels of silver ions being detected. On the other hand, compounds 2 and 3, in which only the phosphonic acid functional groups were bonded to the inorganic network, released larger quantities of silver ions into aqueous solution. These results which were compared with the silver release of the previously described compound 4 (Ag6(3-PO3-C6H4-COO)2). The results clearly show that the release capacity of silver-based metal organic framework can be tuned by 3 modifying their topology which, in the present study, is governed by the regio-isomer of the organic precursor and the synthetic conditions under which the hybrids are prepared.4

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Section: Introductionmentioning

confidence: 99%

Silver-Based Hybrid Materials from meta- or para-Phosphonobenzoic Acid: Influence of the Topology on Silver Release in Water

et al. 2015

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“…In the case of metallophosphonate type materials, the shape and geometry of the organic molecule bonded to the PO 3 C tetrahedra play a crucial role in the design and the properties of the hybrid materials. Indeed, the organic part can (i) act as a linker to connect the organic network with the inorganic one, (ii) introduce some properties like luminescence or proton conductivity, and (iii) govern the rigidity, crystallinity, thermal stability and topology of the material induced by the presence of a rigid scaffold, such as aromatic cycles, [30] or flexible parts such as aliphatic chains [31]. All these parameters impact the final crystallinity of the hybrid materials that can be isolated, especially when hydrothermal conditions are used, as single crystals [32] or well crystallized powder [33].…”

Section: To Phosphonatesmentioning

confidence: 99%

“…Difference between the room temperature X-ray powder diffraction patterns (in a small[27][28][29][30][31] selected 2θ range) of α and β-NH 4 Fe 2 (PO 4 ) 2 (black and blue normalized patterns, respectively, λ Cu-Kα ). Inset: scanning electron microscope images of both samples showing size and morphology of the crystals.…”

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confidence: 99%

Hydrothermal synthesis for new multifunctional materials: A few examples of phosphates and phosphonate-based hybrid materials

Rueff

Poienar

Guesdon

et al. 2016

Journal of Solid State Chemistry

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“…The X n− anion located in the interlayer space may be substituted by a large variety of molecules via anionic exchange reaction. [45] The rigidity results from a direct connection of the phosphonic acid on an aromatic [46] or heteroaromatic ring [47] acting as a rigid molecular platform. As for the related compounds layered double hydroxides, [M 1-x 2+ M' x 3+ (OH) 2 ] x+ (X n− ) x/n .mH 2 O without anchoring of X − anions onto the layers, only a few works on the intercalation of molecules bearing phosphonic acids have been reported.…”

Section: Introductionmentioning

confidence: 99%

“…As for the related compounds layered double hydroxides, [M 1-x 2+ M' x 3+ (OH) 2 ] x+ (X n− ) x/n .mH 2 O without anchoring of X − anions onto the layers, only a few works on the intercalation of molecules bearing phosphonic acids have been reported. [47] These earliest results motivated the further exploration of diphosphonic acids as precursors of hybrid materials. [43] Over the recent years, efforts were made on the use of rigid phosphonic acids for the solvothermal one-pot synthesis of hybrid compounds, [44] with the aim to assess the consequences of this rigidity on the topology of the obtained systems.…”

Section: Introductionmentioning

confidence: 99%

Layered Simple Hydroxides Functionalized by Fluorene‐Phosphonic Acids: Synthesis, Interface Theoretical Insights, and Magnetoelectric Effect

Evrard

Chaker

Roger

et al. 2017

Adv Funct Materials

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International audienceCopper- and cobalt-based layered simple hydroxides (LSH) are successfully functionalized by a series of fluorene mono- and diphosphonic acids, using anionic exchange reactions and a preintercalation strategy. The lateral functionalization of the fluorene moieties has only little impact on the overall structure of the obtained layered hybrid materials but it influences the organization of the molecules within the interlamellar spacing. For bulky fluorene (9,9-dioctyl derivative), luminescence is preserved when inserted into copper and cobalt hydroxydes, whereas it is completely quenched for the other fluorenes. Detailed characterization of the internal structure and chemical bonding properties for copper- and cobalt-based hybrids is performed via ancillary experimental techniques. For the copper-based LSH class, for which more elusive findings are found, first-principles molecular dynamics simulations unravel the fundamental stabilizing role of the H-bonding network promoted within the local environments of the fluorene mono- and diphosphonic acids. The cobalt series of compounds constitute a new class of hybrid magnets, with ordering temperatures ranging from 11.8 to 17.8 K and show a clear magnetoelectric effect. This effect appears above a threshold magnetic field, which is null below the magnetic ordering temperature, and it persists in the paramagnetic regime till about 110 K

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Structural Study of Hydrated/Dehydrated Manganese Thiophene-2,5-diphosphonate Metal Organic Frameworks, Mn₂(O₃P–C₄H₂S–PO₃)·2H₂O

Cited by 33 publications

References 76 publications

Silver-Based Hybrid Materials from meta- or para-Phosphonobenzoic Acid: Influence of the Topology on Silver Release in Water

Silver-Based Hybrid Materials from meta- or para-Phosphonobenzoic Acid: Influence of the Topology on Silver Release in Water

Hydrothermal synthesis for new multifunctional materials: A few examples of phosphates and phosphonate-based hybrid materials

Layered Simple Hydroxides Functionalized by Fluorene‐Phosphonic Acids: Synthesis, Interface Theoretical Insights, and Magnetoelectric Effect

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