Hybrid Organic–Inorganic Materials—In Search of Synergic Activity

Gómez‐Romero, Pedro

doi:10.1002/1521-4095(200102)13:3<163::aid-adma163>3.3.co;2-l

Cited by 276 publications

(342 citation statements)

References 66 publications

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“…Polyoxometalates (POMs) represent a rich family of inorganic metal-oxygen clusters, which have versatile applications in the fields of materials, [1][2][3] catalysis, [4][5][6] and medicines [7][8][9] because of their molecular and electronic structural diversity [10] and fascinating photonic, electronic, and magnetic properties. [11,12] For the elaboration of new inorganic-organic hybrid materials and their deeper exploitation with their desirable attributes, modification of these POMs is required.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Zhou

et al. 2012

Chemistry A European J

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The functionalization of polyoxometalates (POMs), especially with an amino group to yield organonitrogenous derivatives of POMs, is an efficient approach to the enrichment of their structures and the diversification of their properties for various applications. The mechanism for the formation of organonitrogenous-derivatized hexamolybdates was explored by investigating the monofunctionalization of the [Mo(6)O(19)](2-) ion with methylamine using the density functional theory (DFT) method. The calculations show that the direct imidoylization of hexamolybdate with methylamine is both kinetically and thermodynamically unfavorable. However, this imidoylization was found to take place readily in the presence of dimethylcarbodiimide (DMC), for which the free-energy barrier was calculated to be +32.5 kcal mol(-1) in acetonitrile. Moreover, various factors controlling the efficiency of the imidoylization were examined. The calculations show that [W(5)MoO(19)](2-) has a relatively lower reactivity than [Mo(6)O(19)](2-), and that the imidoylization of [W(6)O(19)](2-) is an unfavorable process. With respect to the effect of carbodiimides, it is found that the catalytic activity is directly proportional to the electron-withdrawing effects of the substituents. As to the reactivity of R-NH(2) , the computation results indicate that the free-energy barriers of the substitution reactions are linearly correlated with the basicity constants (pK(b)) of the amino groups. It is noteworthy that the introduction of the proton dramatically decreases the free-energy barrier of the imidoylization of [Mo(6)O(19)](2-) catalyzed by DMC to 24.3 kcal mol(-1) in acetonitrile.

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Section: Introductionmentioning

confidence: 99%

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Zhou

et al. 2012

Chemistry A European J

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“…Rational blending of inorganic and organic components at the molecular scale is shown to form hybrid materials with synergistic properties. [34][35][36] Hence, the current study explores the said possibility by utilizing metal oxide catalyzed aldol condensation reaction for stabilizing Av on the surface of ZnO QDs, resulting in the formation of a hybrid enolate-ZnO QDs based nanocomplex (NCx). These NCx are shown to protect the radiative surface defects of ZnO QDs and suppress the undesired photochemical enol-to-keto transformation in avobenzone, thereby solving the stability problem raised by FDA for sunscreen formulation based on ZnO and Av combination.…”

Section: Hybrid Materialsmentioning

confidence: 99%

Multifunctional Photostable Nanocomplex of ZnO Quantum Dots and Avobenzone via the Promotion of Enolate Tautomer

et al. 2018

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Ideal multifunctional ultraviolet radiation (UVR) absorbents with excellent photostability, high molar absorptivity, broadband UVR screening, and desired skin sensorial properties remain a significant challenge for the sunscreen industry. The potential of the nanocomplex (NCx) formed by microwave synthesis of ZnO quantum dots (QDs) in the presence of Avobenzone (Av) for achieving these goals is reported. The NCx exhibits unique synergy between ZnO QD and Av components, which enhances the photostability and molar absorptivity, extends UVA filtering range, and provides a visible emission that matches the typical human in vivo skin emission color. Density functional theory (DFT) and time‐dependent DFT calculations of ZnO‐Av hybrid structures and comparison of their spectroscopic features with experiments suggest that ZnO QDs catalyze the formation of highly photostable surface enolate species via aldol condensation reaction. The combination of experiments and computations used in this study can advance the science and technology of photoprotection.

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“…[1][2][3][4][5] All these properties were related to the processes of several factors such as temperature transitions and chemical composition. [6] Many studies of these hybrid compounds exhibit an atomic arrangement which can be described by an alternation of an organic cation and inorganic anion. These two ions are connected by the C-H---Cl hydrogen bonds.…”

Section: Introductionmentioning

confidence: 99%

Thermal stability, low gap energy and high Temperature order–disorder Phase Transition in Hybrid Material: [N (CH₃)₄]₂PdCl₄

Dakhlaoui

Karoui

Jomni

2020

Applied Organom Chemis

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The crystal compound [N (CH3)4]2PdCl4 was crystallized in the orthogonal system and the space group is P4/mmm and the refined unit cell parameters are a = b = 8.831 Å, c = 11.415 Å. The structure, vibrational spectra and optical properties have been investigated. DSC studies indicate the presence of two phase transitions at higher temperature which confirm the thermal stability of the palladium‐based compound. These transitions have been studied by Raman scattering on single crystals as a function of temperature which confirmed their nature. The assignment of the observed bands is discussed based in the theoretical calculated frequencies by the density functional theory (DFT) method using B3LYP/LanL2DZ basis in the GAUSSIAN‐09 package of programs. The optical properties in the UV–visible region have been deduced and the energy gap has been determined which is equal to 3.11 eV.

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Hybrid Organic–Inorganic Materials—In Search of Synergic Activity

Cited by 276 publications

References 66 publications

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Multifunctional Photostable Nanocomplex of ZnO Quantum Dots and Avobenzone via the Promotion of Enolate Tautomer

Thermal stability, low gap energy and high Temperature order–disorder Phase Transition in Hybrid Material: [N (CH₃)₄]₂PdCl₄

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Hybrid Organic–Inorganic Materials—In Search of Synergic Activity

Cited by 276 publications

References 66 publications

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Theoretical Investigation of the Mechanism of Primary Amines Reacting with Hexamolybdate: An Insight into the Organoimido Functionalization and Related Reactions of Polyoxometalates

Multifunctional Photostable Nanocomplex of ZnO Quantum Dots and Avobenzone via the Promotion of Enolate Tautomer

Thermal stability, low gap energy and high Temperature order–disorder Phase Transition in Hybrid Material: [N (CH3)4]2PdCl4

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Thermal stability, low gap energy and high Temperature order–disorder Phase Transition in Hybrid Material: [N (CH₃)₄]₂PdCl₄