MOLECULAR ENGINEERING IN 2D MATERIALS AND IN HYBRID SPINTRONIC DEVICES (Q3176894): Difference between revisions

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(‎Removed claim: summary (P836): In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000...)
(‎Created claim: summary (P836): In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000D_...)
Property / summary
 
In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000D__x000D_ _x000D__x000D the PROJECT is CENTRED IN THE AISLATING AND FUNCIONALISATION OF NEW Atomic GROSOR 2D SYSTEM Classes that exhibit ELECTRONIC OR MAGNETIC PROPERTY OF INTERESTS, IN PARTICULAR superconductivity or ferromagnetism. THIS CHEMICAL FUNCIONALISATION WILL BE USED TO CONTROL ITS ASSEMBLY AND TO GENERATE NEW HETEROSTRUCTURES AND HYBRID MATERIALS OF DIRECT APPLICATION IN FIELDS OF HIGH RELEVANCE SUCH AS ENERGY CONVERSION AND STORAGE (ELECTROCATALYSTS, PHOTOCATALYSTS, SUPERCONDENSERS), OR SPINTRONICA. _x000D_ _x000D_ with SPINTRONIC DISPOSITIVE RESPECTIVES, THE PROJECT PRESENT IN THE FIRST PLACE TO OPTIMITS THE SPIN PROPOSITIES OF THE MOLECULAR ENGINERY IN THE ORGANIC-inorganic INTERFACE. IN A SECOND STEP, THESE RESULTS WILL BE USED TO DESIGN A NEW TYPE OF HYBRID DEVICE, THE ESPIN-OLEDS. IN THESE MULTIFUNCTIONAL DEVICES (OPTOELECTRONICS AND SPINTRONICS) THE OBJECTIVE IS TO CONTROL/INCREASE ELECTROLUMINESCENCE BY APPLYING A MAGNETIC FIELD. _x000D_ _x000D_ as PARTY MATERIALS we will use THREE CLASSES OF LAMINAR MATERIALS: TRANSITION METAL DICALCOGENIDES (TMDCS) AND IN PARTICULAR THOSE EXHIBITING CONDUCTIVITY OR SUPERCONDUCTIVITY PROPERTIES; DOUBLE LAMINAR HYDROXYDES (LDHS) AND IN PARTICULAR THOSE FORMED BY MAGNETIC LAYERS (NI(II)FE(III) AND CO(II)FE(III) BIMETALLIC HYDROXYDES), OR TI(IV)-BASED, AS THESE LATTER COULD ACT AS EFFICIENT PHOTOCATALYSTS; LAMINAR COORDINATION POLYMERS (LPCS). WE WILL FOCUS ON THOSE WHO EXHIBIT FERROMAGNETISM OR POROSITY (MOFS). (English)
Property / summary: In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000D__x000D_ _x000D__x000D the PROJECT is CENTRED IN THE AISLATING AND FUNCIONALISATION OF NEW Atomic GROSOR 2D SYSTEM Classes that exhibit ELECTRONIC OR MAGNETIC PROPERTY OF INTERESTS, IN PARTICULAR superconductivity or ferromagnetism. THIS CHEMICAL FUNCIONALISATION WILL BE USED TO CONTROL ITS ASSEMBLY AND TO GENERATE NEW HETEROSTRUCTURES AND HYBRID MATERIALS OF DIRECT APPLICATION IN FIELDS OF HIGH RELEVANCE SUCH AS ENERGY CONVERSION AND STORAGE (ELECTROCATALYSTS, PHOTOCATALYSTS, SUPERCONDENSERS), OR SPINTRONICA. _x000D_ _x000D_ with SPINTRONIC DISPOSITIVE RESPECTIVES, THE PROJECT PRESENT IN THE FIRST PLACE TO OPTIMITS THE SPIN PROPOSITIES OF THE MOLECULAR ENGINERY IN THE ORGANIC-inorganic INTERFACE. IN A SECOND STEP, THESE RESULTS WILL BE USED TO DESIGN A NEW TYPE OF HYBRID DEVICE, THE ESPIN-OLEDS. IN THESE MULTIFUNCTIONAL DEVICES (OPTOELECTRONICS AND SPINTRONICS) THE OBJECTIVE IS TO CONTROL/INCREASE ELECTROLUMINESCENCE BY APPLYING A MAGNETIC FIELD. _x000D_ _x000D_ as PARTY MATERIALS we will use THREE CLASSES OF LAMINAR MATERIALS: TRANSITION METAL DICALCOGENIDES (TMDCS) AND IN PARTICULAR THOSE EXHIBITING CONDUCTIVITY OR SUPERCONDUCTIVITY PROPERTIES; DOUBLE LAMINAR HYDROXYDES (LDHS) AND IN PARTICULAR THOSE FORMED BY MAGNETIC LAYERS (NI(II)FE(III) AND CO(II)FE(III) BIMETALLIC HYDROXYDES), OR TI(IV)-BASED, AS THESE LATTER COULD ACT AS EFFICIENT PHOTOCATALYSTS; LAMINAR COORDINATION POLYMERS (LPCS). WE WILL FOCUS ON THOSE WHO EXHIBIT FERROMAGNETISM OR POROSITY (MOFS). (English) / rank
 
Normal rank
Property / summary: In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000D__x000D_ _x000D__x000D the PROJECT is CENTRED IN THE AISLATING AND FUNCIONALISATION OF NEW Atomic GROSOR 2D SYSTEM Classes that exhibit ELECTRONIC OR MAGNETIC PROPERTY OF INTERESTS, IN PARTICULAR superconductivity or ferromagnetism. THIS CHEMICAL FUNCIONALISATION WILL BE USED TO CONTROL ITS ASSEMBLY AND TO GENERATE NEW HETEROSTRUCTURES AND HYBRID MATERIALS OF DIRECT APPLICATION IN FIELDS OF HIGH RELEVANCE SUCH AS ENERGY CONVERSION AND STORAGE (ELECTROCATALYSTS, PHOTOCATALYSTS, SUPERCONDENSERS), OR SPINTRONICA. _x000D_ _x000D_ with SPINTRONIC DISPOSITIVE RESPECTIVES, THE PROJECT PRESENT IN THE FIRST PLACE TO OPTIMITS THE SPIN PROPOSITIES OF THE MOLECULAR ENGINERY IN THE ORGANIC-inorganic INTERFACE. IN A SECOND STEP, THESE RESULTS WILL BE USED TO DESIGN A NEW TYPE OF HYBRID DEVICE, THE ESPIN-OLEDS. IN THESE MULTIFUNCTIONAL DEVICES (OPTOELECTRONICS AND SPINTRONICS) THE OBJECTIVE IS TO CONTROL/INCREASE ELECTROLUMINESCENCE BY APPLYING A MAGNETIC FIELD. _x000D_ _x000D_ as PARTY MATERIALS we will use THREE CLASSES OF LAMINAR MATERIALS: TRANSITION METAL DICALCOGENIDES (TMDCS) AND IN PARTICULAR THOSE EXHIBITING CONDUCTIVITY OR SUPERCONDUCTIVITY PROPERTIES; DOUBLE LAMINAR HYDROXYDES (LDHS) AND IN PARTICULAR THOSE FORMED BY MAGNETIC LAYERS (NI(II)FE(III) AND CO(II)FE(III) BIMETALLIC HYDROXYDES), OR TI(IV)-BASED, AS THESE LATTER COULD ACT AS EFFICIENT PHOTOCATALYSTS; LAMINAR COORDINATION POLYMERS (LPCS). WE WILL FOCUS ON THOSE WHO EXHIBIT FERROMAGNETISM OR POROSITY (MOFS). (English) / qualifier
 
point in time: 12 October 2021
Timestamp+2021-10-12T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 19:07, 12 October 2021

Project Q3176894 in Spain
Language Label Description Also known as
English
MOLECULAR ENGINEERING IN 2D MATERIALS AND IN HYBRID SPINTRONIC DEVICES
Project Q3176894 in Spain

    Statements

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    363,000.0 Euro
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    726,000.0 Euro
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    50.0 percent
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    1 January 2015
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    31 December 2017
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    UNIVERSIDAD DE VALENCIA
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    39°30'14.11"N, 0°26'31.56"W
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    46190
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    EN EL PRESENTE PROYECTO SE PROPONE EL ESTUDIO DE NUEVOS MATERIALES 2D Y DE NUEVOS DISPOSITIVOS MOLECULARES ESPIN-ELECTRONICOS (ESPINTRONICOS), PONIENDO ESPECIAL ATENCION EN LA MODULACION DE SUS PROPIEDADES MEDIANTE UNA INGENIERIA MOLECULAR DE LA INTERFACE._x000D_ _x000D_ CON RESPECTO A LOS MATERIALES 2D, EL PROYECTO SE CENTRA EN EL AISLAMIENTO Y LA FUNCIONALIZACION QUIMICA DE NUEVAS CLASES DE SISTEMAS 2D DE GROSOR ATOMICO QUE EXHIBAN PROPIEDADES ELECTRONICAS O MAGNETICAS DE INTERES, EN PARTICULAR SUPERCONDUCTIVIDAD O FERROMAGNETISMO. ESTA FUNCIONALIZACION QUIMICA SERA UTIL PARA CONTROLAR SU ENSAMBLADO Y PARA GENERAR NUEVAS HETEROESTRUCTURAS Y MATERIALES HIBRIDOS DE APLICACION DIRECTA EN CAMPOS DE ALTA RELEVANCIA COMO LA CONVERSION Y EL ALMACENAMIENTO DE ENERGIA (ELECTROCATALIZADORES, FOTOCATALIZADORES, SUPERCONDENSADORES), O LA ESPINTRONICA. _x000D_ _x000D_ CON RESPECTO A LOS DISPOSITIVOS ESPINTRONICOS, EL PROYECTO PRETENDE EN PRIMER LUGAR OPTIMIZAR LAS PROPIEDADES DE ESPIN DE LOS DISPOSITIVOS MEDIANTE UNA INGENIERIA MOLECULAR EN LA INTERFACE ORGANICA-INORGANICA. EN UN SEGUNDO PASO, SE APROVECHARAN ESTOS RESULTADOS PARA DISEÑAR UN NUEVO TIPO DE DISPOSITIVO HIBRIDO, LOS ESPIN-OLEDS. EN ESTOS DISPOSITIVOS MULTIFUNCIONALES (OPTOELECTRONICOS Y ESPINTRONICOS) EL OBJETIVO ES CONTROLAR/AUMENTAR LA ELECTROLUMINISCENCIA MEDIANTE LA APLICACION DE UN CAMPO MAGNETICO. _x000D_ _x000D_ COMO MATERIALES DE PARTIDA EMPLEAREMOS TRES CLASES DE MATERIALES LAMINARES: I) DICALCOGENUROS DE METALES DE TRANSICION (TMDCS) Y, EN PARTICULAR, AQUELLOS QUE EXHIBEN PROPIEDADES DE CONDUCTIVIDAD O SUPERCONDUCTIVIDAD; II) HIDROXIDOS DOBLES LAMINARES (LDHS) Y, EN PARTICULAR AQUELLOS FORMADOS POR CAPAS MAGNETICAS (HIDROXIDOS BIMETALICOS DE NI(II)FE(III) Y CO(II)FE(III)), O BASADOS EN TI(IV), YA QUE ESTOS ULTIMOS PODRIAN ACTUAR COMO FOTOCATALIZADORES EFICIENTES; III) POLIMEROS DE COORDINACION LAMINARES (LPCS). NOS CENTRAREMOS EN AQUELLOS QUE EXHIBEN FERROMAGNETISMO O POROSIDAD (MOFS). (Spanish)
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    In the present project, the status of new 2D MATERIALS AND NEW SPIN-ELECTRONIC MOLECULAR AVAILABLES (SPINTRONIC) is proposed._x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D_ _x000D_ _x000D_ _x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D__x000D_ _x000D__x000D__x000D__x000D__x000D___x000D__x000D__x000D___x000D___x000D___x000D___x000D___x000D_ _x000D_ _x000D_ _x000D__x000D_ _x000D__x000D the PROJECT is CENTRED IN THE AISLATING AND FUNCIONALISATION OF NEW Atomic GROSOR 2D SYSTEM Classes that exhibit ELECTRONIC OR MAGNETIC PROPERTY OF INTERESTS, IN PARTICULAR superconductivity or ferromagnetism. THIS CHEMICAL FUNCIONALISATION WILL BE USED TO CONTROL ITS ASSEMBLY AND TO GENERATE NEW HETEROSTRUCTURES AND HYBRID MATERIALS OF DIRECT APPLICATION IN FIELDS OF HIGH RELEVANCE SUCH AS ENERGY CONVERSION AND STORAGE (ELECTROCATALYSTS, PHOTOCATALYSTS, SUPERCONDENSERS), OR SPINTRONICA. _x000D_ _x000D_ with SPINTRONIC DISPOSITIVE RESPECTIVES, THE PROJECT PRESENT IN THE FIRST PLACE TO OPTIMITS THE SPIN PROPOSITIES OF THE MOLECULAR ENGINERY IN THE ORGANIC-inorganic INTERFACE. IN A SECOND STEP, THESE RESULTS WILL BE USED TO DESIGN A NEW TYPE OF HYBRID DEVICE, THE ESPIN-OLEDS. IN THESE MULTIFUNCTIONAL DEVICES (OPTOELECTRONICS AND SPINTRONICS) THE OBJECTIVE IS TO CONTROL/INCREASE ELECTROLUMINESCENCE BY APPLYING A MAGNETIC FIELD. _x000D_ _x000D_ as PARTY MATERIALS we will use THREE CLASSES OF LAMINAR MATERIALS: TRANSITION METAL DICALCOGENIDES (TMDCS) AND IN PARTICULAR THOSE EXHIBITING CONDUCTIVITY OR SUPERCONDUCTIVITY PROPERTIES; DOUBLE LAMINAR HYDROXYDES (LDHS) AND IN PARTICULAR THOSE FORMED BY MAGNETIC LAYERS (NI(II)FE(III) AND CO(II)FE(III) BIMETALLIC HYDROXYDES), OR TI(IV)-BASED, AS THESE LATTER COULD ACT AS EFFICIENT PHOTOCATALYSTS; LAMINAR COORDINATION POLYMERS (LPCS). WE WILL FOCUS ON THOSE WHO EXHIBIT FERROMAGNETISM OR POROSITY (MOFS). (English)
    12 October 2021
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    Paterna
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    Identifiers

    MAT2014-56143-R
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