Exploring the self-assembly of dumbbell-shaped polyoxometalate hybrids, from molecular building units to nanostructured soft materials

The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic-inorganic polyoxometalate (POM)-based hybrids is herein described. In this system, the presence of charged subunits (POM, metal linkers, and counter ions) in the complex molecular architecture...

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Published inChemical science (Cambridge) Vol. 11; no. 4; pp. 1172 - 118
Main Authors Centellas, Mireia Segado, Piot, Madeleine, Salles, Raphaël, Proust, Anna, Tortech, Ludovic, Brouri, Dalil, Hupin, Sébastien, Abécassis, Benjamin, Landy, David, Bo, Carles, Izzet, Guillaume
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 28.10.2020
The Royal Society of Chemistry
Subjects
Agglomeration
Chemical Sciences
Chemistry
Gels
Ion association
Molecular dynamics
Molecular structure
Nanostructure
Nanostructured materials
NMR
Nuclear magnetic resonance
Photomicrographs
Polyoxometallates
Self-assembly
Solvation
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Abstract The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic-inorganic polyoxometalate (POM)-based hybrids is herein described. In this system, the presence of charged subunits (POM, metal linkers, and counter ions) in the complex molecular architecture can drive their aggregation, which results from a competition between the solvation energy of the discrete species and intermolecular electrostatic interactions. We show that the nature of the POM and the charge of the metal linker are key parameters for the hierarchical nanoorganization. The experimental findings were corroborated with a computational investigation combining DFT and molecular dynamics simulation methods, which outlines the importance of solvation of the counter ion and POM/counter ion association in the aggregation process. The dumbbell-like species can also form gels, in the presence of a poorer solvent, displaying similar nanoorganization of the aggregates. We show that starting from the designed molecular building units whose internal charges can be controlled by redox trigger we can achieve their implementation into soft nanostructured materials through the control of their supramolecular organization. The formation of hierarchical nanostructures using supramolecular dumbbell-like species made of organic-inorganic polyoxometalate-based hybrids is investigated by combination of SAXS and computational methods.
AbstractList The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic–inorganic polyoxometalate (POM)-based hybrids is herein described. In this system, the presence of charged subunits (POM, metal linkers, and counter ions) in the complex molecular architecture can drive their aggregation, which results from a competition between the solvation energy of the discrete species and intermolecular electrostatic interactions. We show that the nature of the POM and the charge of the metal linker are key parameters for the hierarchical nanoorganization. The experimental findings were corroborated with a computational investigation combining DFT and molecular dynamics simulation methods, which outlines the importance of solvation of the counter ion and POM/counter ion association in the aggregation process. The dumbbell-like species can also form gels, in the presence of a poorer solvent, displaying similar nanoorganization of the aggregates. We show that starting from the designed molecular building units whose internal charges can be controlled by redox trigger we can achieve their implementation into soft nanostructured materials through the control of their supramolecular organization.
The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic–inorganic polyoxometalate (POM)-based hybrids is herein described. In this system, the presence of charged subunits (POM, metal linkers, and counter ions) in the complex molecular architecture can drive their aggregation, which results from a competition between the solvation energy of the discrete species and intermolecular electrostatic interactions. We show that the nature of the POM and the charge of the metal linker are key parameters for the hierarchical nanoorganization. The experimental findings were corroborated with a computational investigation combining DFT and molecular dynamics simulation methods, which outlines the importance of solvation of the counter ion and POM/counter ion association in the aggregation process. The dumbbell-like species can also form gels, in the presence of a poorer solvent, displaying similar nanoorganization of the aggregates. We show that starting from the designed molecular building units whose internal charges can be controlled by redox trigger we can achieve their implementation into soft nanostructured materials through the control of their supramolecular organization. The formation of hierarchical nanostructures using supramolecular dumbbell-like species made of organic–inorganic polyoxometalate-based hybrids is investigated by combination of SAXS and computational methods.
Author Bo, Carles
Centellas, Mireia Segado
Landy, David
Piot, Madeleine
Tortech, Ludovic
Abécassis, Benjamin
Proust, Anna
Brouri, Dalil
Hupin, Sébastien
Salles, Raphaël
Izzet, Guillaume
AuthorAffiliation CNRS UMR 7179
Sorbonne Université
LICSEN
Departament de Química Física i Inorgànica
Université Paris-Saclay
Ecole Normale Supérieure de Lyon
Institut Català d'Investigació Química (ICIQ)
Normandie Univ
Universitat Rovirai Virgili
COBRA
Unité de Chimie Environnementale et Interactions sur le Vivant (UCEIV, UR 4492)
NIMBE
CEA
INSA Rouen
Laboratoire de Chimie
CNRS UMR 8232
The Barcelona Institute of Science and Technology
UMR 5182
SFR Condorcet FR CNRS 3417
CNRS
Institut Parisien de Chimie Moléculaire
UNIROUEN
Université de Lyon
Université Claude Bernard
Université du Littoral Côte d'Opale
Laboratoire de Réactivité de Surface
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Snippet The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic-inorganic polyoxometalate (POM)-based hybrids is...
The formation of hierarchical nanostructures using preformed dumbbell-like species made of covalent organic–inorganic polyoxometalate (POM)-based hybrids is...
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SubjectTerms Agglomeration
Chemical Sciences
Chemistry
Gels
Ion association
Molecular dynamics
Molecular structure
Nanostructure
Nanostructured materials
NMR
Nuclear magnetic resonance
Photomicrographs
Polyoxometallates
Self-assembly
Solvation
Title Exploring the self-assembly of dumbbell-shaped polyoxometalate hybrids, from molecular building units to nanostructured soft materials
URI https://www.proquest.com/docview/2452519090
https://hal.science/hal-02954983
https://pubmed.ncbi.nlm.nih.gov/PMC8162291
Volume 11
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