6533b861fe1ef96bd12c5aac
RESEARCH PRODUCT
Defect-Free Chemical Functionalization of Magnetic Monolayers Based on Coordination Polymers
Javier López-cabrellesIñigo J. Vitorica-yrezabalDejan DavidovikjJosé Alberto Rodríguez-velamazánG Espallargas MinguezPeter G. SteenekenP. J. BereciartuaSamuel Mañas-valeroEugenio CoronadoC J B VieiraJoão C. WaerenborghJ S H Van Der Zantsubject
chemistry.chemical_classificationchemistry.chemical_compoundMembraneMaterials scienceFerrocenechemistryLigandMonolayerMoleculeSurface modificationNanotechnologyPolymerCoordination complexdescription
<p>Chemical functionalization has demonstrated to be a powerful approach to tailor the physical and chemical properties of two-dimensional (2D) materials, to increase their processability and</p> <p>stability, to add new functionalities and, even, to create new 2D materials. However, this post synthetic method – which involves the anchoring of molecules on the surface of an exfoliated 2D crystal – inevitably leads to defective materials, which lack long-range structural order. If defect-free functionalized monolayers are required, a radically new approach needs to be developed. Here we present a pre-synthetic method based on coordination chemistry that affords the isolation of crystalline functionalized monolayers. This involves functionalization of the ligand prior to the formation of the 2D material. The concept is illustrated using layered coordination polymers formed by reacting various benzimidazole derivatives with ferrocene. This surface tuneability, together with the robust magnetic and mechanical properties of these 2D materials, make them exceptional candidates for studying the magnetism in the 2D limit, as well as for developing membranes for selective molecular sensing.</p>
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-04-30 |