ACTIVE PHOTONIC DEVICES BASED ON PEROVSKITA-TYPE SEMICONDUCTOR NANOSTRUCTURES (Q3147059): Difference between revisions
Jump to navigation
Jump to search
(Changed label, description and/or aliases in en) |
(Changed label, description and/or aliases in en: translated_label) |
||
| label / en | label / en | ||
ACTIVE PHOTONIC DEVICES BASED ON PEROVSKITA-TYPE SEMICONDUCTOR NANOSTRUCTURES | |||
Revision as of 02:17, 9 October 2021
Project Q3147059 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | ACTIVE PHOTONIC DEVICES BASED ON PEROVSKITA-TYPE SEMICONDUCTOR NANOSTRUCTURES |
Project Q3147059 in Spain |
Statements
83,490.0 Euro
0 references
166,980.0 Euro
0 references
50.0 percent
0 references
1 January 2018
0 references
31 December 2020
0 references
UNIVERSIDAD DE VALENCIA
0 references
46190
0 references
EL OBJETIVO CENTRAL DEL PROYECTO LNL-PHOTON ES CONTRIBUIR A LA CONSECUCION DE DIVERSOS RETOS SOCIALES, PRINCIPALMENTE EN EL AMBITO DE LA ENERGIA (DISPOSITIVOS EMISORES DE BAJO CONSUMO) Y LA SOCIEDAD (DISPOSITIVOS FOTONICOS Y OPTOELECTRONICOS SUSCEPTIBLES DE SER INTEGRADOS PARA TECNOLOGIA FUTURA "PORTABLE" O "VESTIBLE"). ELLO SERA POSIBLE MEDIANTE EL DESARROLLO Y FABRICACION DE ELEMENTOS, PRUEBAS CONCEPTO, DISPOSITIVOS Y SENSORES OPTOELECTRONICOS Y FOTONICOS, SOBRE SUBSTRATOS FLEXIBLES, DADO QUE ESTARAN BASADOS PRINCIPALMENTE EN SEMICONDUCTORES DEPOSITADOS POR TECNOLOGIA DE PROCESADO HUMEDO (SPIN-COATING, DOCTOR BLADING, DIP-COATING, INKJET PRINTING ¿ ESTA TECNICA SE PONDRA EN MARCHA EN EL PRESENTE PROYECTO), PRINCIPALMENTE DIFERENTES TIPOS DE NANOPARTICULAS Y MATERIAL MASIVO DE HALUROS METALICOS/ORGANOMETALICOS TIPO PEROVSKITA Y NANOESTRUCTURAS CUANTICAS COLOIDALES DE SEMICONDUCTORES II-VI._x000D_ EL PLAN DE TRABAJO PROPUESTO ES AMPLIO Y AMBICIOSO, PROPONIENDOSE DIFERENTES ESTRATEGIAS SOBRE LAS CUALES DECIDIR LAS QUE SEAN MAS ADECUADAS Y EXITOSAS, Y SE ESTRUCTURA EN TORNO A TRES OBJETIVOS PRINCIPALES SOBRE LOS QUE SE ERIGEN LOS PAQUETES DE TRABAJO DEL PROYECTO: (1) DISPOSITIVOS EMISORES DE LUZ (LEDS O CONVERSION POR RETROILUMINACION LED) Y CONCEPTOS BASICOS DE SENSORES POR IMPRESION 3D, (2) FOTONICA PARA DISPOSITIVOS EMISORES Y SENSORES Y (3) FOTONICA NO-LINEAL. EL (1) TIENE DOS VERTIENTES, UNA DIRECTA ENCAMINADA A LA FABRICACION DE LEDS (TECNOLOGIA HIBRIDA ORGANICA-INORGANICA) Y OTRA INDIRECTA USANDO NANOCOMPOSITES DE POLIMERO CONTENIENDO NANOPARTICULAS LUMINISCENTES QUE CONVERTIRIAN UNA RETROILUMINACION LED A 450 NM EN OTROS COLORES DEL ESPECTRO VISIBLE; LOS MATERIALES A USAR SERIAN DIFERENTES TIPOS DE NANOPARTICULAS DE HALUROS METALICOS TIPO PEROVSKITA (CSMX3, DONDE M ES EL METAL, PB - SN, Y X EL HALURO, CL - BR - I) Y NANOESTRUCTURAS CUANTICAS COLOIDALES DE SEMICONDUCTORES II-VI (CDSE, PRINCIPALMENTE). EL OBJETIVO (2) Y SU CORRESPONDIENTE PAQUETE DE TRABAJO CONTEMPLA LA FABRICACION DE ESTRUCTURAS DE GUIADO OPTICO ACTIVO, ESTRUCTURAS LASER Y MEJORA DE LA EMISION DE LOS MATERIALES PROPUESTOS USANDO METAMATERIALES HIPERBOLICOS, ADEMAS DEL ESTABLECIMIENTO DE LAS BASES PARA DESARROLLAR GUIAS OPTICAS BASADAS EN ONDAS SUPERFICIALES DE DYAKONOV Y DE BLOCH. EL OBJETIVO (3) Y SUS TAREAS ASOCIADAS TIENEN QUE VER CON LA DEFINICION DE DISPOSITIVOS FOTONICOS BASADOS EN LAS PROPIEDADES OPTICAS NO LINEALES DE LAS NANOESTRUCTURAS SEMICONDUCTORAS SINTETIZADAS E INVESTIGADAS EN EL SUBPROYECTO 1. LOS LOGROS ALCANZADOS EN ESTE PODRAN CONDUCIR A PUBLICACIONES DE ALTO FACTOR DE IMPACTO Y ALGUNAS PATENTES. ESTAS SE PODRIAN DERIVAR DE: NANOCOMPOSITES POLIMERICOS PARA RETROILUMINACION LED, USO DE MATERIALES HIPERBOLICOS EN DIFERENTES ESTRUCTURAS FOTONICAS, DISPOSITIVOS FOTONICOS NO LINEALES (MODULADORES ELECTRO-OPTICOS Y SOLIPLASMON), ASI COMO LA INTEGRACION DE ESTOS EN SUBSTRATO FLEXIBLE. (Spanish)
0 references
THE MAIN OBJECTIVE OF THE LNL-PHOTON PROJECT IS TO CONTRIBUTE TO THE ACHIEVEMENT OF VARIOUS SOCIAL CHALLENGES, MAINLY IN THE FIELD OF ENERGY (ENERGY-EFFICIENT EMITTING DEVICES) AND SOCIETY (INTEGRATED PHOTONIC DEVICES FOR FUTURE "PORTABLE" OR "WEARABLE" TECHNOLOGY). THIS WILL BE POSSIBLE THROUGH THE DEVELOPMENT AND FABRICATION OF ELEMENTS, PROOFS OF CONCEPT, DEVICES AND OPTOELECTRONIC AND PHOTONIC SENSORS, ON FLEXIBLE SUBSTRATES, BECAUSE THEY WILL BE BASED MAINLY ON SEMICONDUCTORS DEPOSITED BY WET PROCESSING TECHNOLOGY (SPIN-COATING, DOCTOR BLADING, DIP-COATING, INKJET PRINTING ¿ THIS TECHNIQUE WILL BE DEVELOPED IN THE PRESENT PROJECT), MAINLY DIFFERENT TYPES OF NANOPARTICLES AND BULK PEROVSKITE-TYPE METAL/ORGANO-METAL HALIDES AND COLLOIDAL QUANTUM NANOSTRUCTURES OF II-VI SEMICONDUCTOR._x000D_ THE PROPOSED WORK PLAN IS BROAD AND AMBITIOUS, PROPOSING DIFFERENT STRATEGIES TO DECIDE WHICH OF THEM ARE THE MOST APPROPRIATE AND SUCCESSFUL, AND IS STRUCTURED AROUND THREE MAIN OBJECTIVES ON WHICH THE WORK PACKAGES OF THE PROJECT ARE SET UP: (1) LIGHT EMITTING DEVICES (LEDS OR CONVERSION BY LED BACKLIGHTING) AND SENSORS (2) PHOTONICS FOR EMITTING DEVICES AND SENSORS, AND (3) NON-LINEAR PHOTONICS. OBJECTIVE (1) HAS TWO ASPECTS, ONE DIRECTED TOWARDS THE MANUFACTURE OF LEDS (ORGANIC-INORGANIC HYBRID TECHNOLOGY) AND ANOTHER INDIRECT USING NANOCOMPOSITES OF POLYMER CONTAINING LUMINESCENT NANOPARTICLES THAT WOULD CONVERT A LED BACKLIGHT OF 450 NM IN OTHER COLORS OF THE VISIBLE SPECTRUM; THE MATERIALS TO BE USED WOULD BE DIFFERENT PEROVSKITE-TYPE METAL HALIDE (CSMX3, WHERE M IS THE METAL, PB - SN, AND X THE HALIDE, CL - BR - I) NANOPARTICLES AND COLLOIDAL SEMICONDUCTOR II-VI QUANTUM NANOSTRUCTURES (CDSE, MAINLY). OBJECTIVE (2) AND ITS CORRESPONDING WORK PACKAGE INVOLVES THE FABRICATION OF ACTIVE OPTICAL WAVE-GUIDE STRUCTURES, LASERS AND IMPROVED EMISSION OF THE PROPOSED MATERIALS USING HYPERBOLIC METAMATERIALS, OTHER THAN ESTABLISHING THE BACKGROUND TO DEVELOP OPTICAL WAVEGUIDES BASED ON DYAKONOV AND BLOCH-LIKE SURFACE WAVES. OBJECTIVE (3) AND ITS ASSOCIATED TASKS HAVE TO DO WITH THE DEFINITION OF PHOTONIC DEVICES BASED ON THE NON-LINEAR OPTICAL PROPERTIES OF THE SEMICONDUCTOR NANOSTRUCTURES SYNTHESIZED AND INVESTIGATED IN SUBPROJECT 1. THE ACHIEVEMENTS IN THIS ONE MAY LEAD TO PUBLICATIONS OF HIGH FACTOR IMPACT AND SOME PATENTS. THESE COULD BE DERIVED FROM: POLYMER NANOCOMPOSITES FOR LED BACKLIGHTING, USE OF HYPERBOLIC MATERIALS IN DIFFERENT PHOTONIC STRUCTURES, NON-LINEAR PHOTONIC DEVICES (ELECTRO-OPTICAL MODULATORS AND SOLIPLASMON), AS WELL AS THE INTEGRATION OF THESE INTO FLEXIBLE SUBSTRATE. (English)
0 references
Paterna
0 references
Identifiers
TEC2017-86102-C2-1-R
0 references