ACTIVE PHOTONIC DEVICES BASED ON PEROVSKITA-TYPE SEMICONDUCTOR NANOSTRUCTURES AND HIPERBOLIC METAMATERIALS: CHARACTERISATION AND ADDITIVE MANUFACTURING (Q3149143): Difference between revisions

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DISPOSITIFS PHOTONIQUES ACTIFS BASÉS SUR LES NANOSTRUCTURES SEMI-CONDUCTRICES DE TYPE PEROVSKITA ET LES MÉTAMATÉRIAUX HIPERBOLIQUES: CARACTÉRISATION ET FABRICATION ADDITIVE

Revision as of 16:04, 2 December 2021

Project Q3149143 in Spain
Language Label Description Also known as
English
ACTIVE PHOTONIC DEVICES BASED ON PEROVSKITA-TYPE SEMICONDUCTOR NANOSTRUCTURES AND HIPERBOLIC METAMATERIALS: CHARACTERISATION AND ADDITIVE MANUFACTURING
Project Q3149143 in Spain

    Statements

    country
    Spain
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    EU contribution
    130,680.0 Euro
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    budget
    163,350.0 Euro
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    co-financing rate
    80.0 percent
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    start time
    1 January 2018
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    end time
    31 December 2020
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    beneficiary name (string)
    UNIVERSIDAD DE CADIZ
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    coordinate location

    36°31'43.28"N, 6°11'24.79"W
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    postal code
    11028
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    summary
    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 INTEGRADOS PARA TECNOLOGIA FUTURA "PORTABLE" O "VESTIBLE"). ELLO SERA POSIBLE MEDIANTE EL DESARROLLO Y FABRICACION DE ELEMENTOS, PRUEBAS DE CONCEPTO, DISPOSITIVOS Y SENSORES OPTOELECTRONICOS Y FOTONICOS, BASADOS PRINCIPAMENTE EN SEMICONDUCTORES DEPOSITADOS POR TECNOLOGIA DE PROCESADO HUMEDO (SPIN-COATING, DRBLADING, DIP-COATING, INKJET PRINTING), DIFERENTES TIPOS DE NANOPARTICULAS Y MATERIAL MASIVO DE HALUROS METALICOS 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. 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 SENSORES, (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 Y NANOESTRUCTURAS CUANTICAS COLOIDALES DE SEMICONDUCTORES II-VI. EL SEGUNDO 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. EL TERCER PAQUETE SE BASARA EN LA DEFINICION DE DISPOSITIVOS FOTONICOS BASADOS EN LAS PROPIEDADES OPTICAS NO LINEALES DE LAS NANOESTRUCTURAS SEMICONDUCTORAS INVESTIGADAS EN EL PROYECTO. LAS NOVEDADES PRINCIPALES EN NUESTRO PROYECTO, QUE PODRAN CONDUCIR A PUBLICACIONES DE ALTO FACTOR DE IMPACTO Y ALGUNAS PATENTES, SON VARIAS: CAPAS BASADAS EN NANOESTRUCTURAS SEMICONDUCTORAS DE TIPO PEROVSKITA, PREPARACION Y PATRONADO DE MATERIALES HIPERBOLICOS Y NUEVOS NANOCOMPOSITES._x000D_ _x000D_ EN EL PROYECTO PREVIO DEL EQUIPO YA SE VALIDARON CIERTAS TECNICAS DE DEPOSICION EN HUMEDO, SIMPLES Y DE BAJA TEMPERATURA, PARA FORMAR CAPAS BASADAS EN NANOPARTICULAS SEMICONDUCTORAS Y METALICAS CON LA CALIDAD OPTICA/ELECTRO-OPTICA ADECUADA PARA LA PRODUCCION DE LOS ELEMENTOS, DISPOSITIVOS Y SENSORES MENCIONADOS ARRIBA, CONTRIBUYENDO ASI A ALCANZAR LOS RETOS SOCIALES PERSEGUIDOS. EN EL PRESENTE PROYECTO SE PRETENDE AÑADIR LA TECNICA DE INYECCION DE TINTA PARA EL DESARROLLO DE MICRO-ELEMENTOS SIN NECESIDAD DE REALIZAR UN PATRONADO POR LITOGRAFIA OPTICA. _x000D_ _x000D_ EL PROYECTO SE REALIZA DE FORMA COORDINADA ENTRE DOS EQUIPOS CON UNA CONSOLIDADA TRAYECTORIA CIENTIFICO-TECNOLOGICA (PUBLICACIONES, PATENTES, TRANSFERENCIA) QUE CONJUNTAMENTE APORTAN LAS TECNOLOGIAS DE FABRICACION Y CARACTERIZACION NECESARIAS PARA ACOMETER EL PLAN DE TRABAJO PROPUESTO. (Spanish)
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    THE MAIN AIM OF THE LNL-PHOTON PROJECT IS TO CONTRIBUTE TO THE ACHIEVEMENT OF SEVERAL SOCIAL CHALLENGES, MAINLY IN THE FIELD OF ENERGY (LOW-ENERGY EMITTING DEVICES) AND SOCIETY (INTEGRATED PHOTONIC DEVICES FOR FUTURE WEARABLE AND PORTABLE TECHNOLOGY). THIS WILL BE POSSIBLE THROUGH THE DEVELOPMENT AND MANUFACTURING OF ELEMENTS, CONCEPT TESTS, OPTOELECTRONIC AND PHOTONIC DEVICES AND SENSORS, WHICH ARE MAINLY BASED IN SEMICONDUCTORS DEPOSITED BY WET PROCESSING TECHNOLOGY (SPIN-COATING, DRBLADING, DIP-COATING, INKJET PRINTING), SEVERAL TYPES OF NANOPARTICLES, PEROVSKITES AND COLLOIDAL QUANTUM NANOSTRUCTURES OF II-VI SEMICONDUCTORS. _x000D_ _x000D_ THE WORK PLAN IS WIDE AND AMBITIOUS, PROPOSING SEVERAL STRATEGIES TO DECIDE THE MOST ADEQUATE AND SUCCESSFUL ONES. IT IS STRUCTURED FOLLOWING THREE MAIN OBJECTIVES TO DEFINE THE WORKPACKAGES OF THE PROJECT: (1) LIGHT EMITTING DEVICES (LEDS OR CONVERSION BY BACK-ILLUMINATION) AND SENSORS, (2) PHOTONICS FOR EMITTING AND SENSING DEVICES, AND (3) NON-LINEAR PHOTONICS. THE FIRST OBJECTIVE HAS TWO ASPECTS, A DIRECT ONE THAT IS ORIENTED TO LEDS MANUFACTURING (ORGANIC-INORGANIC HYBRID TECHNOLOGY), AND ANOTHER INDIRECT ONE, WHICH USES NANCOMPOSITES CONSISTING OF POLYMERS WITH LUMINESCENT NANOPARTICLES THAT WOULD CONVERT A LED BACK-ILLUMINATION FROM 450 NM TO OTHER VISIBLE SPECTRUM WAVELENGTHS. THE MATERIALS TO BE USED WILL CONSIST OF SEVERAL TYPES OF PEROVSKITES OF METALLIC HALIDES AND II-VI SEMICONDUCTOR COLLOIDAL QUANTUM NANOSTRUCTURES. THE SECOND WORKPACKAGE IS ORIENTED TOWARD THE MANUFACTURING OF ACTIVE OPTICAL GUIDING DEVICES, LASER STRUCTURES AND IMPROVEMENT OF THE EMISSION OF THE PROPOSED MATERIALS USING HYPERBOLIC MATERIALS. THE THIRD WORKPACKAGE IS DEDICATED TO THE DEFINITION OF PHOTONIC DEVICES BASED IN THE NON-LINEAR OPTICAL PROPERTIES OF THE SEMICONDUCTOR NANOSTRUCTURES INVESTIGATED IN THIS PROJECT. THE MAIN NOVELTIES OF OUR PROJECT, WHICH CAN LEAD TO HIGH-IMPACT PUBLICATIONS AND SOME PATENT, ARE VARIOUS: LAYERS BASED ON PEROVSKITE SEMICONDUCTOR NANOSTRUCTURES, PREPARATION AND PATTERNING OF HYPERBOLIC MATERIALS AND NEW NANOCOMPOSITES. _x000D_ _x000D_ CERTAIN TECHNIQUES OF WET DEPOSITION, SIMPLE AND WORKING TO LOW TEMPERATURE, WERE VALIDATED IN THE PREVIOUS PROJECT CARRIED OUT BY THE SAME RESEARCH TEAMS OF THIS PROJECT, TO FORM LAYERS BASED ON SEMICONDUCTOR AND METALLIC NANOPARTICLES, WITH THE OPTICAL AND ELECTRO-OPTICAL QUALITY ADEQUATE FOR THE PRODUCTION OF THE ABOVE MENTIONED ELEMENTS, DEVICES AND SENSORS. THIS WILL HELP TO REACH THE PURSUED SOCIAL CHALLENGES. IN THIS PROJECT, WE INTEND TO ADD THE TECHNIQUE OF INK INJECTION TO DEVELOP MICRO-ELEMENTS WITHOUT THE NEED TO CARRY OUT A PATTERNING BY OPTICAL LITHOGRAPHY. _x000D_ _x000D_ THE PROJECT IS PROPOSED TO BE CARRIED OUT BETWEEN TWO RESEARCH TEAMS WITH A CONSOLIDATED SCIENTIFIC AND TECHNOLOGICAL HISTORY (PUBLICATIONS, PATENTS AND TECHNOLOGY TRANSFER) THAT JOINLY DELIVER THE MANUFACTURING AND CHARACTERIZATION TECHNOLOGIES NEEDED TO SUCCESSFULLY PROCEED WITH THE PROPOSED WORK PLAN. (English)
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    location (string)
    Puerto Real
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    Identifiers

    Spanish Kohesio ID
    TEC2017-86102-C2-2-R
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