A CuInS.sub.2@ZnS nanomaterial synthesized with thiosalicylic acid and sodium citrate as dual-stabilizers is taken as a chemiluminescent luminophore, and Tris buffer containing both N.sub.2H.sub.4.H.sub.2O and H.sub.2O.sub.2 is taken as the triggering solution; introducing the H.sub.2O.sub.2 into the triggering solution can bring out greatly enhanced CL emission and obviously shortened CL process, enable the CuInS.sub.2@ZnS nanomaterial with strong flash-type and near-infrared CL; the luminophore of CuInS.sub.2@ZnS nanomaterial is synthesized by a one-pot method; compared with acridinium ester (a classical flash-type chemiluminescent substance), the CuInS.sub.2@ZnS nanomaterial is simple in synthesis method, mild in conditions and short in the required time, the synthesized CuInS.sub.2@ZnS nanomaterial is not easy to decompose under light, and the CL waveband is in the near-infrared region.

A dielectric material, to a device comprising the dielectric material and to use of the dielectric material in the fabrication of a device. One dielectric material may comprise a halogen-based elastomer mixed with a halogen based surfactant and exhibiting electro-mechanical self-healing properties and/or an increased dielectric constant compared to the halogen-based elastomer. Another dielectric material may comprise a halogen-based polymer mixed with a halogen based surfactant and exhibiting an increased dielectric constant compared to the halogen-based polymer.

A CuInS.sub.2@ZnS nanomaterial synthesized with thiosalicylic acid and sodium citrate as dual-stabilizers is taken as a chemiluminescent luminophore, and Tris buffer containing both N.sub.2H.sub.4.H.sub.2O and H.sub.2O.sub.2 is taken as the triggering solution; introducing the H.sub.2O.sub.2 into the triggering solution can bring out greatly enhanced CL emission and obviously shortened CL process, enable the CuInS.sub.2@ZnS nanomaterial with strong flash-type and near-infrared CL; the luminophore of CuInS.sub.2@ZnS nanomaterial is synthesized by a one-pot method; compared with acridinium ester (a classical flash-type chemiluminescent substance), the CuInS.sub.2@ZnS nanomaterial is simple in synthesis method, mild in conditions and short in the required time, the synthesized CuInS.sub.2@ZnS nanomaterial is not easy to decompose under light, and the CL waveband is in the near-infrared region.

An optoelectronic device includes a LED that is suited to the emission of a radiation and that includes an active layer, and a conversion layer that extends over the active layer of the LED and that includes a plurality of fluorophores suited to the conversion of the radiation emitted by the LED, wherein the conversion layer is confined laterally by a mirror reflecting both the radiation converted by the fluorophores and the radiation not converted by the fluorophores, and vertically between a first and a second multilayer reflective filters forming a resonant Fabry-Perot cavity that blocks the radiation not converted by the fluorophores and has a transmittance peak for the radiation converted by the fluorophores.

An optoelectronic device includes a LED that is suited to the emission of a radiation and that includes an active layer, and a conversion layer that extends over the active layer of the LED and that includes a plurality of fluorophores suited to the conversion of the radiation emitted by the LED, wherein the conversion layer is confined laterally by a mirror reflecting both the radiation converted by the fluorophores and the radiation not converted by the fluorophores, and vertically between a first and a second multilayer reflective filters forming a resonant Fabry-Perot cavity that blocks the radiation not converted by the fluorophores and has a transmittance peak for the radiation converted by the fluorophores.

A dielectric material, to a device comprising the dielectric material and to use of the dielectric material in the fabrication of a device. One dielectric material may comprise a halogen-based elastomer mixed with a halogen based surfactant and exhibiting electro-mechanical self-healing properties and/or an increased dielectric constant compared to the halogen-based elastomer. Another dielectric material may comprise a halogen-based polymer mixed with a halogen based surfactant and exhibiting an increased dielectric constant compared to the halogen-based polymer.