Interfacial complexation driven three-dimensional assembly of cationic phosphorus dendrimers and graphene oxide sheets

Nadia Katir; Anass Benayad; Denis Rouchon; Nathalie Marcotte; Nabil El Brahmi; Jean Pierre Majoral; Mosto Bousmina; Abdelkrim El Kadib

doi:10.1039/c8na00047f

Interfacial complexation driven three-dimensional assembly of cationic phosphorus dendrimers and graphene oxide sheets

Nanoscale Adv. 2018 Aug 17;1(1):314-321. doi: 10.1039/c8na00047f. eCollection 2019 Jan 15.

Authors

Nadia Katir¹, Anass Benayad², Denis Rouchon³, Nathalie Marcotte⁴, Nabil El Brahmi¹, Jean Pierre Majoral⁵, Mosto Bousmina¹, Abdelkrim El Kadib¹

Affiliations

¹ Euromed Research Center, Engineering Division, Euro-Mediterranean University of Fez (UEMF) Route de Meknes 30000 Fès Morocco a.elkadib@ueuromed.org.
² CEA, LITEN, Department of Nanomaterials, MINATEC 17 rue des martyrs F-38054 Grenoble Cedex 09 France.
³ CEA, LETI, Department of Nanomaterials Minatec Campus F-38054 Grenoble Cedex 09 France.
⁴ Institut Charles Gerhardt UMR 5253, CNRS/ENSCM/UM 8 rue de l'Ecole Normale Montpellier F-34295 Cedex France.
⁵ Laboratoire de Chimie de Coordination (LCC) CNRS 205 route de Narbonne 31077 Toulouse France.

Abstract

High content nitrogen, sulfur and phosphorus heteroatoms assembled in tree-like dendrimers (DG _n ) are confined within the galleries of two-dimensional graphene oxide (GO). The presence of the ternary diethyl-N-ethyl-ammonium groups on the dendrimer peripheries ensures the exfoliation of graphene sheets thereby affording interfacially bridged, three-dimensional heteroatom-enriched graphene-based hybrid nanostructures (DG _n -GO). Dendrimer generation (from 1 to 4) that reflects the bulkiness of these conceived nano-trees impacts increasingly the degree of dispersion-exfoliation and sheet desordering. The long-term stability of these aqueous suspensions associated with their handling flexibility allows uniform accommodation of the resulting hybrid materials as flame-retardants in bioplastics.