A Luminescent Host-Guest Hybrid between a EuIII Complex and MWCNTs

Tuning of the excitation wavelength in Eu3+-aminophenyl based polyfluorinated β-diketonate complexes: a red-emitting Eu3+-complex encapsulated in a silica/polymer hybrid material excited by blue light

A series of new antenna complexes of Eu³⁺ based on aminophenyl β-diketonate ligands was designed and their photophysical properties were evaluated.

Eu3+:Y2O3@CNTs—a rare earth filled carbon nanotube nanomaterial with low toxicity and good photoluminescence properties

New fluorescent nanomaterials—europium-doped yttria filled CNTs with low toxicity and good photoluminescence properties were synthesized using a supercritical method.

Fullerene-driven encapsulation of a luminescent Eu(III) complex in carbon nanotubes

A novel CNT-based hybrid luminescent material was obtained via encapsulation of a C60-based Eu(III) complex into single-, double- and multi-walled carbon nanotubes (SWCNTs, DWCNTs and MWCNTs, respectively). Specifically, a luminescent negatively charged Eu(III) complex, electrostatically bonded to an imidazolium-functionalized fullerene cage, was transported inside CNTs by exploiting the affinity of fullerenes for the inner surface of these carbonaceous containers. The filling was performed under supercritical CO2 (scCO2) conditions to facilitate the entrapment of the ion-paired assembly. Accurate elemental, spectroscopic and morphological characterization not only demonstrated the efficiency of the filling strategy, but also the occurrence of nano-ordering of the encapsulated supramolecular luminophores when SWCNTs were employed.

Anisotropically luminescent hydrogels containing magnetically-aligned MWCNTs-Eu(III) hybrids

The anisotropic emission properties of an Eu(III)-MWCNTs-based nanocomposite PNIPAAm hydrogel is induced upon application of a 10 T magnetic field, the latter dictating the alignment of the carbon nanotubes. This structuration creates directional highways for light to be preferentially absorbed, giving rise to orientation-dependent light emission intensity. Thermal control of the transparency of the aqueous matrix also allowed a stimulus-induced switching of the materials' emission properties.

Luminophores and Carbon Nanotubes: An Odd Combination?

Studies on the exohedral and endohedral functionalization of carbon nanotubes (CNTs) with organic or inorganic chromophores and luminophores have increased substantially in recent years, making use of covalent, supramolecular, electrostatic, and host-guest preparative strategies. Research in this field has fundamental interest because the mixing of two radically different components (molecule/metal complex versus CNT) typically affords materials with exceptional electronic and structural properties while also offering the possibility of studying in detail the interactions between molecules/complexes and nanomaterials. Application perspectives can be also envisaged, particularly in the areas of light-to-electricity (e.g., photovoltaics) and electricity-to-light (e.g., electroluminescence) conversion. Here, we focus in particular on some recent results obtained in the preparation of luminescent hybrids in which suitably designed emitting moieties, placed inside or outside of carbon nanotubes through noncovalent interactions, can afford brightly glowing black photoluminescent nanostructures.