MULTIFERROIC MAGNETIC MATERIALS AND NONLINEAR OPTICS OF MOLECULAR BASE: SYNTHESIS AND PROCESSING (Q3156776): Difference between revisions

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(‎Changed label, description and/or aliases in en: translated_label)
(‎Removed claim: summary (P836): WITHIN THE SO-CALLED MULTIFUNCTIONAL MATERIALS, MULTIFERROIC MATERIALS ARE HOARDING SPECIAL ATTENTION THESE LAST YEARS. THESE ARE MATERIALS THAT COMBINE FERROMAGNETISM, FERROELECTRICITY AND/OR FERROELASTICITY. The POSIBLE INTERACTION BETWEEN THIS PROPERTY PROPERTY IN THE DEVELOPMENT OF NEW DISPOSITIVES AS IN BASICA SCIENCE._x000D_ The main challenge of this research project is to connect the long term order of the elective dipoles (FERRO- OR F...)
Property / summary
WITHIN THE SO-CALLED MULTIFUNCTIONAL MATERIALS, MULTIFERROIC MATERIALS ARE HOARDING SPECIAL ATTENTION THESE LAST YEARS. THESE ARE MATERIALS THAT COMBINE FERROMAGNETISM, FERROELECTRICITY AND/OR FERROELASTICITY. The POSIBLE INTERACTION BETWEEN THIS PROPERTY PROPERTY IN THE DEVELOPMENT OF NEW DISPOSITIVES AS IN BASICA SCIENCE._x000D_ The main challenge of this research project is to connect the long term order of the elective dipoles (FERRO- OR FERRIELECTRICITY) WITH THE LONG ORD OF MAGNETIC dipoles (FERRO- OR FERRIMAGNETISM). From this way it is intended to control the power of electricity by applying a MAGNETIC flange, or to control the magnetisation by means of the application of an ELECTRIC CAMP._x000D_ THIS ULTIMA POSIBILITY is the one that really allows us to augur in the scope of the information package. THE MAGNETIC BISESTABILITY OF THIS TYPE OF SYSTEMS IS A FUNDAMENTAL STEP IN DATA STORAGE. Through the development of this TYPE OF DISPOSITIVES THE MICROPROCESERS OF OUR OUR OUR OUR OUR ORDERERS can be able to be able to control the most difficult ELECTRIC CAMPOSITIES (DEDE OF OTHER MODE), the dispositivities based on multiferroic MATERIALS PODRIATE PERMITING INTEGRATED A PROPOSITION OF MACHINERY MAGNETIC INFORMATION CONTROLING THE APPLICATION OF A THE MEMORY ELECTRIC CAMP TO THE MICROPROCESER, DISMINUTED, BY THE TIME OF ACCESS TO THE MEMORY)_x000D_ to synthetise this multiferroic MOLECULARY MATERIAL TYPE we will use the approximate MULTIFUNCIONAL MYSMEM. SINCE, IN ADDITION, WE ARE LOOKING FOR TECHNOLOGICAL APPLICATIONS FOR THESE MULTIFERROIC MATERIALS, WE WILL TRY TO FIND THE BEST OPTION TO DEPOSIT THEM ON SURFACES. THE IDEA IS TO OBTAIN THE FINEST FILMS DEPOSITED ON NANOSTRUCTURED ALUMINIUM SUBSTRATES, WHICH IN TURN WILL BE DEPOSITED ON CONDUCTIVE OR TRANSPARENT SUBSTRATES. THIS GLOBAL STRATEGY THAT MERGES SYNTHESIS AND PROCESSES OFFERS BROAD EXPECTATIONS FOR PROMISING RESULTS. (English)
 
Property / summary: WITHIN THE SO-CALLED MULTIFUNCTIONAL MATERIALS, MULTIFERROIC MATERIALS ARE HOARDING SPECIAL ATTENTION THESE LAST YEARS. THESE ARE MATERIALS THAT COMBINE FERROMAGNETISM, FERROELECTRICITY AND/OR FERROELASTICITY. The POSIBLE INTERACTION BETWEEN THIS PROPERTY PROPERTY IN THE DEVELOPMENT OF NEW DISPOSITIVES AS IN BASICA SCIENCE._x000D_ The main challenge of this research project is to connect the long term order of the elective dipoles (FERRO- OR FERRIELECTRICITY) WITH THE LONG ORD OF MAGNETIC dipoles (FERRO- OR FERRIMAGNETISM). From this way it is intended to control the power of electricity by applying a MAGNETIC flange, or to control the magnetisation by means of the application of an ELECTRIC CAMP._x000D_ THIS ULTIMA POSIBILITY is the one that really allows us to augur in the scope of the information package. THE MAGNETIC BISESTABILITY OF THIS TYPE OF SYSTEMS IS A FUNDAMENTAL STEP IN DATA STORAGE. Through the development of this TYPE OF DISPOSITIVES THE MICROPROCESERS OF OUR OUR OUR OUR OUR ORDERERS can be able to be able to control the most difficult ELECTRIC CAMPOSITIES (DEDE OF OTHER MODE), the dispositivities based on multiferroic MATERIALS PODRIATE PERMITING INTEGRATED A PROPOSITION OF MACHINERY MAGNETIC INFORMATION CONTROLING THE APPLICATION OF A THE MEMORY ELECTRIC CAMP TO THE MICROPROCESER, DISMINUTED, BY THE TIME OF ACCESS TO THE MEMORY)_x000D_ to synthetise this multiferroic MOLECULARY MATERIAL TYPE we will use the approximate MULTIFUNCIONAL MYSMEM. SINCE, IN ADDITION, WE ARE LOOKING FOR TECHNOLOGICAL APPLICATIONS FOR THESE MULTIFERROIC MATERIALS, WE WILL TRY TO FIND THE BEST OPTION TO DEPOSIT THEM ON SURFACES. THE IDEA IS TO OBTAIN THE FINEST FILMS DEPOSITED ON NANOSTRUCTURED ALUMINIUM SUBSTRATES, WHICH IN TURN WILL BE DEPOSITED ON CONDUCTIVE OR TRANSPARENT SUBSTRATES. THIS GLOBAL STRATEGY THAT MERGES SYNTHESIS AND PROCESSES OFFERS BROAD EXPECTATIONS FOR PROMISING RESULTS. (English) / rank
Normal rank
 
Property / summary: WITHIN THE SO-CALLED MULTIFUNCTIONAL MATERIALS, MULTIFERROIC MATERIALS ARE HOARDING SPECIAL ATTENTION THESE LAST YEARS. THESE ARE MATERIALS THAT COMBINE FERROMAGNETISM, FERROELECTRICITY AND/OR FERROELASTICITY. The POSIBLE INTERACTION BETWEEN THIS PROPERTY PROPERTY IN THE DEVELOPMENT OF NEW DISPOSITIVES AS IN BASICA SCIENCE._x000D_ The main challenge of this research project is to connect the long term order of the elective dipoles (FERRO- OR FERRIELECTRICITY) WITH THE LONG ORD OF MAGNETIC dipoles (FERRO- OR FERRIMAGNETISM). From this way it is intended to control the power of electricity by applying a MAGNETIC flange, or to control the magnetisation by means of the application of an ELECTRIC CAMP._x000D_ THIS ULTIMA POSIBILITY is the one that really allows us to augur in the scope of the information package. THE MAGNETIC BISESTABILITY OF THIS TYPE OF SYSTEMS IS A FUNDAMENTAL STEP IN DATA STORAGE. Through the development of this TYPE OF DISPOSITIVES THE MICROPROCESERS OF OUR OUR OUR OUR OUR ORDERERS can be able to be able to control the most difficult ELECTRIC CAMPOSITIES (DEDE OF OTHER MODE), the dispositivities based on multiferroic MATERIALS PODRIATE PERMITING INTEGRATED A PROPOSITION OF MACHINERY MAGNETIC INFORMATION CONTROLING THE APPLICATION OF A THE MEMORY ELECTRIC CAMP TO THE MICROPROCESER, DISMINUTED, BY THE TIME OF ACCESS TO THE MEMORY)_x000D_ to synthetise this multiferroic MOLECULARY MATERIAL TYPE we will use the approximate MULTIFUNCIONAL MYSMEM. SINCE, IN ADDITION, WE ARE LOOKING FOR TECHNOLOGICAL APPLICATIONS FOR THESE MULTIFERROIC MATERIALS, WE WILL TRY TO FIND THE BEST OPTION TO DEPOSIT THEM ON SURFACES. THE IDEA IS TO OBTAIN THE FINEST FILMS DEPOSITED ON NANOSTRUCTURED ALUMINIUM SUBSTRATES, WHICH IN TURN WILL BE DEPOSITED ON CONDUCTIVE OR TRANSPARENT SUBSTRATES. THIS GLOBAL STRATEGY THAT MERGES SYNTHESIS AND PROCESSES OFFERS BROAD EXPECTATIONS FOR PROMISING RESULTS. (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 16:02, 12 October 2021

Project Q3156776 in Spain
Language Label Description Also known as
English
MULTIFERROIC MAGNETIC MATERIALS AND NONLINEAR OPTICS OF MOLECULAR BASE: SYNTHESIS AND PROCESSING
Project Q3156776 in Spain

    Statements

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    27,830.0 Euro
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    55,660.0 Euro
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    50.0 percent
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    1 January 2014
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    31 December 2016
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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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    DENTRO DE LOS ASI LLAMADOS MATERIALES MULTIFUNCIONALES, LOS MATERIALES MULTIFERROICOS ESTAN ACAPARANDO ESPECIAL ATENCION ESTOS ULTIMOS AÑOS. ESTOS, SON MATERIALES QUE COMBINAN FERROMAGNETISMO, FERROELECTRICIDAD Y/O FERROELASTICIDAD. LA POSIBLE INTERACCION ENTRE ESTAS PROPIEDADES PLANTEA PERSPECTIVAS MUY INTERESANTES TANTO EN EL DESARROLLO DE NUEVOS DISPOSITIVOS COMO EN CIENCIA BASICA._x000D_ EL PRINCIPAL RETO DE ESTE PROYECTO DE INVESTIGACION CONSISTE EN CONSEGUIR ACOPLAR EL ORDEN DE LARGO ALCANCE DE LOS DIPOLOS ELECTRICOS (FERRO- O FERRIELECTRICIDAD) CON EL ORDEN DE LARGO ALCANCE DE LOS DIPOLOS MAGNETICOS (FERRO- O FERRIMAGNETISMO). DE ESTA MANERA SE PRETENDE CONTROLAR LA POLARIZACION ELECTRICA APLICANDO UN CAMPO MAGNETICO, O BIEN CONTROLAR LA MAGNETIZACION MEDIANTE LA APLICACION DE UN CAMPO ELECTRICO._x000D_ ESTA ULTIMA POSIBILIDAD ES LA QUE REALMENTE PERMITE AUGURAR POSIBILIDADES EN EL CAMPO DEL ALMACENAMIENTO DE INFORMACION. LA BISESTABILIDAD MAGNETICA DE ESTE TIPO DE SISTEMAS ES UN PASO FUNDAMENTAL EN EL ALMACENAMIENTO DE DATOS. MEDIANTE EL DESARROLLO DE ESTE TIPO DE DISPOSITIVOS LOS MICROPROCESADORES DE NUESTROS ORDENADORES PUEDEN SER CAPACES DE CONTROLAR CAMPOS ELECTRICOS MAS FACILMENTE (DICHO DE OTRO MODO, LOS DISPOSITIVOS BASADOS EN MATERIALES MULTIFERROICOS PODRIAN PERMITIR INTEGRAR UN DISPOSITIVO DE ALMACENAMIENTO DE INFORMACION MAGNETICO CONTROLADO MEDIANTE LA APLICACION DE UN CAMPO ELECTRICO SITUADO JUNTO AL MICROPROCESADOR, DISMINUYENDO, POR TANTO, EL TIEMPO DE ACCESO A LA MEMORIA)_x000D_ PARA SINTETIZAR ESTE TIPO DE MATERIALES MOLECULARES MULTIFERROICOS UTILIZAREMOS LA MISMA APROXIMACION EMPLEADA PARA OBTENER MATERIALES MOLECULARES MULTIFUNCIONALES. YA QUE, ADEMAS, BUSCAMOS APLICACIONES TECNOLOGICAS PARA ESTOS MATERIALES MULTIFERROICOS, INTENTAREMOS BUSCAR LA MEJOR OPCION PARA DEPOSITARLOS EN SUPERFICIES. LA IDEA ES OBTENER PELICULAS LO MAS FINAS POSIBLE DEPOSITADAS SOBRE SUSTRATOS NANOESTRUCTURADOS DE ALUMINIO, QUE A SU VEZ ESTARAN DEPOSITADOS SOBRE SUSTRATOS CONDUCTORES O TRANSPARENTES. ESTA ESTRATEGIA GLOBAL QUE FUSIONA SINTESIS Y PROCESADO OFRECE AMPLIAS EXPECTATIVAS A LA HORA DE OBTENER RESULTADOS PROMETEDORES. (Spanish)
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    Paterna
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    Identifiers

    CTQ2013-46362-P
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