BIOINSPIRED AND INTELLIGENT METAL-ORGANIC MATERIALS WITH STIMULUS-RESPONSE BEHAVIOR (Q3146759): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Removed claim: summary (P836): THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes...)
(‎Created claim: summary (P836): THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes i...)
Property / summary
 
THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes it possible to observe MATERIALS THAT COMBINAN DYSTINTS PROPERTY AS LUMINISCENCE, MAGNETISM, ELECTRONIC CONDUCTIVITY, GASES adsorption, ETC. _x000D_ Nitrogenated BASES (INCLUDED Nucleobases AND DERIVED), with MULTIPLES ATOMOS DADORES, they offer a great capacity to coordinate themselves to the metallic centres, and they can also intervene in processes of mutual recognition, primarily through the formation of hydrogenic links with other biologic interests. _x000D_ the PROJECT is CENTRATED IN THE PREPARATION OF COORDINATION PREPARATIONS BASED IN ORGANIC LIGANDS FOR INTERVENTION IN MOLECULAR RECOGNISING PROCESSES, TALS AS Nitrogen BASES WITH ADDITIONAL FUNCIONAL GROUPS (AMINS, Carboxylic GRUPOS, hydroxylos), to evaluate your capacity of adsorption, (in the case of open structures), your ELECTRONIC, MAGNETIC AND OPTICAL PROPERTY, even as your possible process as NANOMATERIAL. For another side, the use of BIO-BASE BIO-INSPIRATE MATERIALS IS PRESSURE._x000D_ THE USE OF METAL-BASE NITROGENATE ENTITIES AS BASIC CONSTRUCTION UNITY CAN BE PLACETED TO EXTENT GENERED STRUCTURES of coORDINACION or by supramolecular ensemble enter the liginds anchored to the metallic centres. IN MANY CASES, THE METHOD OF COORDINATION OF THE NITROGEN BASES IMPOSES A GEOMETRIC RIGIDITY ON THE METAL-LIGANDO UNITS, WHICH TOGETHER WITH THE COMPLEMENTARY HYDROGEN BONDS ESTABLISHED BETWEEN THE LIGANDS GIVE RISE TO STRUCTURAL RESTRICTIONS THAT INVOLVE THE APPEARANCE OF POROSITY. The WORK OF WORKING WITH METAL-LIGANING COORDINACTION LINKS PROPORCION TO THE YOUR ONE, DINAMISMO, THANK YOU TO THE HABILITY THAT THE METALIC IONES, TO RECOMMEND, INTERCAMBIATE OR ELIMINATE molecules of their environment, and to the FLEXIBILITY AND FUNCIONALITY OF THE ORGANIC LIGANDS Selected, Above for Highly Utilities in the OBTENTION OF MATERIALS._x000D_ ON THIS BASE, THE PROJECT HAVE AS FIRST OBJECTIVE TO GENERAL NEW MATERIALS WITH PROPERTY OPTOELECTRONIC AND adsorption CAPACES FOR VARIED STIMULES (Sensorica). The OBJECTIVE SECOND TO PROCEDURE THESE COMPOSES AS NANO-MATERIALS WITH A BOTTOM-UP STRATEGY TO STUDY THIS PROPERTY AND POSIBLE VARIATIONS IN NONNOmetric ESCAL AND EXTENTS YOUR POSIBLE APPLICATIONS TO THE BIO-MEDICINE CHANGE (TRANSPORTERS OF PHARMACS or molecules of INTER-BIOLOGICAL, BACTERICIDS)._x000D_ In summary, we hope to develop MULTIFUNCIONAL MULTIFUNCIONAL MATERIALS ESTIMULO-RESPOSE WITH POSSIBLE MOLECULAR RECOGNISING THAT PROPERTY PROPERTY as porosity and ELECTRICAL CONDUCTIVITY, MAGNETISM, LUMINISCENCE, as at the macroscale as processed at nanometric scaffold, to the end of having a new FAMILY OF MATERIALS HIGHLY COMPETITIVE AND WITHOUT PRIECEDENTS. (English)
Property / summary: THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes it possible to observe MATERIALS THAT COMBINAN DYSTINTS PROPERTY AS LUMINISCENCE, MAGNETISM, ELECTRONIC CONDUCTIVITY, GASES adsorption, ETC. _x000D_ Nitrogenated BASES (INCLUDED Nucleobases AND DERIVED), with MULTIPLES ATOMOS DADORES, they offer a great capacity to coordinate themselves to the metallic centres, and they can also intervene in processes of mutual recognition, primarily through the formation of hydrogenic links with other biologic interests. _x000D_ the PROJECT is CENTRATED IN THE PREPARATION OF COORDINATION PREPARATIONS BASED IN ORGANIC LIGANDS FOR INTERVENTION IN MOLECULAR RECOGNISING PROCESSES, TALS AS Nitrogen BASES WITH ADDITIONAL FUNCIONAL GROUPS (AMINS, Carboxylic GRUPOS, hydroxylos), to evaluate your capacity of adsorption, (in the case of open structures), your ELECTRONIC, MAGNETIC AND OPTICAL PROPERTY, even as your possible process as NANOMATERIAL. For another side, the use of BIO-BASE BIO-INSPIRATE MATERIALS IS PRESSURE._x000D_ THE USE OF METAL-BASE NITROGENATE ENTITIES AS BASIC CONSTRUCTION UNITY CAN BE PLACETED TO EXTENT GENERED STRUCTURES of coORDINACION or by supramolecular ensemble enter the liginds anchored to the metallic centres. IN MANY CASES, THE METHOD OF COORDINATION OF THE NITROGEN BASES IMPOSES A GEOMETRIC RIGIDITY ON THE METAL-LIGANDO UNITS, WHICH TOGETHER WITH THE COMPLEMENTARY HYDROGEN BONDS ESTABLISHED BETWEEN THE LIGANDS GIVE RISE TO STRUCTURAL RESTRICTIONS THAT INVOLVE THE APPEARANCE OF POROSITY. The WORK OF WORKING WITH METAL-LIGANING COORDINACTION LINKS PROPORCION TO THE YOUR ONE, DINAMISMO, THANK YOU TO THE HABILITY THAT THE METALIC IONES, TO RECOMMEND, INTERCAMBIATE OR ELIMINATE molecules of their environment, and to the FLEXIBILITY AND FUNCIONALITY OF THE ORGANIC LIGANDS Selected, Above for Highly Utilities in the OBTENTION OF MATERIALS._x000D_ ON THIS BASE, THE PROJECT HAVE AS FIRST OBJECTIVE TO GENERAL NEW MATERIALS WITH PROPERTY OPTOELECTRONIC AND adsorption CAPACES FOR VARIED STIMULES (Sensorica). The OBJECTIVE SECOND TO PROCEDURE THESE COMPOSES AS NANO-MATERIALS WITH A BOTTOM-UP STRATEGY TO STUDY THIS PROPERTY AND POSIBLE VARIATIONS IN NONNOmetric ESCAL AND EXTENTS YOUR POSIBLE APPLICATIONS TO THE BIO-MEDICINE CHANGE (TRANSPORTERS OF PHARMACS or molecules of INTER-BIOLOGICAL, BACTERICIDS)._x000D_ In summary, we hope to develop MULTIFUNCIONAL MULTIFUNCIONAL MATERIALS ESTIMULO-RESPOSE WITH POSSIBLE MOLECULAR RECOGNISING THAT PROPERTY PROPERTY as porosity and ELECTRICAL CONDUCTIVITY, MAGNETISM, LUMINISCENCE, as at the macroscale as processed at nanometric scaffold, to the end of having a new FAMILY OF MATERIALS HIGHLY COMPETITIVE AND WITHOUT PRIECEDENTS. (English) / rank
 
Normal rank
Property / summary: THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes it possible to observe MATERIALS THAT COMBINAN DYSTINTS PROPERTY AS LUMINISCENCE, MAGNETISM, ELECTRONIC CONDUCTIVITY, GASES adsorption, ETC. _x000D_ Nitrogenated BASES (INCLUDED Nucleobases AND DERIVED), with MULTIPLES ATOMOS DADORES, they offer a great capacity to coordinate themselves to the metallic centres, and they can also intervene in processes of mutual recognition, primarily through the formation of hydrogenic links with other biologic interests. _x000D_ the PROJECT is CENTRATED IN THE PREPARATION OF COORDINATION PREPARATIONS BASED IN ORGANIC LIGANDS FOR INTERVENTION IN MOLECULAR RECOGNISING PROCESSES, TALS AS Nitrogen BASES WITH ADDITIONAL FUNCIONAL GROUPS (AMINS, Carboxylic GRUPOS, hydroxylos), to evaluate your capacity of adsorption, (in the case of open structures), your ELECTRONIC, MAGNETIC AND OPTICAL PROPERTY, even as your possible process as NANOMATERIAL. For another side, the use of BIO-BASE BIO-INSPIRATE MATERIALS IS PRESSURE._x000D_ THE USE OF METAL-BASE NITROGENATE ENTITIES AS BASIC CONSTRUCTION UNITY CAN BE PLACETED TO EXTENT GENERED STRUCTURES of coORDINACION or by supramolecular ensemble enter the liginds anchored to the metallic centres. IN MANY CASES, THE METHOD OF COORDINATION OF THE NITROGEN BASES IMPOSES A GEOMETRIC RIGIDITY ON THE METAL-LIGANDO UNITS, WHICH TOGETHER WITH THE COMPLEMENTARY HYDROGEN BONDS ESTABLISHED BETWEEN THE LIGANDS GIVE RISE TO STRUCTURAL RESTRICTIONS THAT INVOLVE THE APPEARANCE OF POROSITY. The WORK OF WORKING WITH METAL-LIGANING COORDINACTION LINKS PROPORCION TO THE YOUR ONE, DINAMISMO, THANK YOU TO THE HABILITY THAT THE METALIC IONES, TO RECOMMEND, INTERCAMBIATE OR ELIMINATE molecules of their environment, and to the FLEXIBILITY AND FUNCIONALITY OF THE ORGANIC LIGANDS Selected, Above for Highly Utilities in the OBTENTION OF MATERIALS._x000D_ ON THIS BASE, THE PROJECT HAVE AS FIRST OBJECTIVE TO GENERAL NEW MATERIALS WITH PROPERTY OPTOELECTRONIC AND adsorption CAPACES FOR VARIED STIMULES (Sensorica). The OBJECTIVE SECOND TO PROCEDURE THESE COMPOSES AS NANO-MATERIALS WITH A BOTTOM-UP STRATEGY TO STUDY THIS PROPERTY AND POSIBLE VARIATIONS IN NONNOmetric ESCAL AND EXTENTS YOUR POSIBLE APPLICATIONS TO THE BIO-MEDICINE CHANGE (TRANSPORTERS OF PHARMACS or molecules of INTER-BIOLOGICAL, BACTERICIDS)._x000D_ In summary, we hope to develop MULTIFUNCIONAL MULTIFUNCIONAL MATERIALS ESTIMULO-RESPOSE WITH POSSIBLE MOLECULAR RECOGNISING THAT PROPERTY PROPERTY as porosity and ELECTRICAL CONDUCTIVITY, MAGNETISM, LUMINISCENCE, as at the macroscale as processed at nanometric scaffold, to the end of having a new FAMILY OF MATERIALS HIGHLY COMPETITIVE AND WITHOUT PRIECEDENTS. (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 15:04, 12 October 2021

Project Q3146759 in Spain
Language Label Description Also known as
English
BIOINSPIRED AND INTELLIGENT METAL-ORGANIC MATERIALS WITH STIMULUS-RESPONSE BEHAVIOR
Project Q3146759 in Spain

    Statements

    0 references
    0 references
    48,400.0 Euro
    0 references
    96,800.0 Euro
    0 references
    50.0 percent
    0 references
    30 December 2016
    0 references
    31 December 2020
    0 references
    UNIVERSIDAD DEL PAIS VASCO/EUSKAL HERRIKO UNIBERTSITATEA
    0 references
    0 references

    43°19'37.56"N, 2°59'4.60"W
    0 references
    48054
    0 references
    EL DISEÑO Y SINTESIS DE POLIMEROS DE COORDINACION, BASADOS EN LIGANDOS CON CAPACIDAD DE RECONOCIMIENTO MOLECULAR HACIA SISTEMAS BIOLOGICOS, Y SU ESTUDIO EN LA NANOESCALA SON TEMAS MUY INTERESANTES DEBIDO A SU PROYECCION EN APLICACIONES Y AREAS DE ESTUDIO MUY DIVERSAS. LA SELECCION ADECUADA DEL METAL Y DE LOS LIGANDOS ORGANICOS PERMITE MODULAR LAS PROPIEDADES FISICAS Y QUIMICAS DE ESTOS POLIMEROS ASI COMO SU DIMENSIONALIDAD Y ESTRUCTURA. ESTO PERMITE OBTENER MATERIALES QUE COMBINAN DISTINTAS PROPIEDADES COMO LUMINISCENCIA, MAGNETISMO, CONDUCTIVIDAD ELECTRONICA, ADSORCION DE GASES, ETC. _x000D_ LAS BASES NITROGENADAS (INCLUIDAS LAS NUCLEOBASES Y SUS DERIVADOS), CON MULTIPLES ATOMOS DADORES, PROPORCIONAN UNA GRAN CAPACIDAD PARA COORDINARSE A CENTROS METALICOS, Y TAMBIEN PUEDEN INTERVENIR EN PROCESOS DE RECONOCIMIENTO MOLECULAR, PRINCIPALMENTE A TRAVES DE LA FORMACION DE ENLACES DE HIDROGENO CON OTRAS MOLECULAS DE INTERES BIOLOGICO. _x000D_ EL PROYECTO SE CENTRA EN LA PREPARACION DE POLIMEROS DE COORDINACION BASADOS EN LIGANDOS ORGANICOS CAPACES DE INTERVENIR EN PROCESOS DE RECONOCIMIENTO MOLECULAR, TALES COMO BASES NITROGENADAS CON GRUPOS FUNCIONALES ADICIONALES (AMINAS, GRUPOS CARBOXILICOS, HIDROXILOS¿), PARA EVALUAR SU CAPACIDAD DE ADSORCION, (EN EL CASO DE ESTRUCTURAS ABIERTAS), SUS PROPIEDADES ELECTRONICAS, MAGNETICAS Y OPTICAS, ASI COMO SU POSIBLE PROCESAMIENTO COMO NANOMATERIALES. POR OTRO LADO, SE PRETENDE ESTUDIAR SU POTENCIAL USO COMO MATERIALES INTELIGENTES BIO-INSPIRADOS DE TIPO ESTIMULO RESPUESTA._x000D_ EL USO DE ENTIDADES METAL-BASE NITROGENADA COMO UNIDAD BASICA DE CONSTRUCCION PUEDE DAR LUGAR A ESTRUCTURAS EXTENDIDAS GENERADAS MEDIANTE ENLACES DE COORDINACION O POR ENSAMBLAJE SUPRAMOLECULAR ENTRE LOS LIGANDOS ANCLADOS A LOS CENTROS METALICOS. EN MUCHOS CASOS, EL MODO DE COORDINACION DE LAS BASES NITROGENADAS IMPONE UNA RIGIDEZ GEOMETRICA A LAS UNIDADES METAL-LIGANDO, QUE JUNTO CON LOS ENLACES DE HIDROGENO COMPLEMENTARIOS QUE SE ESTABLECEN ENTRE LOS LIGANDOS DAN LUGAR A RESTRICCIONES ESTRUCTURALES QUE IMPLICAN LA APARICION DE POROSIDAD. EL HECHO DE TRABAJAR CON ENLACES DE COORDINACION METAL-LIGANDO PROPORCIONA A SU VEZ, ¿DINAMISMO¿, GRACIAS A LA HABILIDAD QUE TIENEN LOS IONES METALICOS, PARA REACOMODAR, INTERCAMBIAR O ELIMINAR MOLECULAS DE SU ENTORNO, Y A LA FLEXIBILIDAD Y FUNCIONALIDAD DE LOS LIGANDOS ORGANICOS SELECCIONADOS, AMBOS PARAMETROS ALTAMENTE UTILES EN LA OBTENCION DE MATERIALES ¿ESTIMULO-RESPUESTA¿._x000D_ SOBRE ESTA BASE, EL PROYECTO TIENE COMO PRIMER OBJETIVO GENERAR NUEVOS MATERIALES CON PROPIEDADES OPTOELECTRONICAS Y DE ADSORCION CAPACES DE RESPONDER A ESTIMULOS VARIADOS (SENSORICA). EL SEGUNDO OBJETIVO PRETENDE PROCESAR ESTOS COMPUESTOS COMO NANO-MATERIALES A TRAVES DE UNA ESTRATEGIA "BOTTOM-UP", A FIN DE ESTUDIAR ESTAS PROPIEDADES Y SUS POSIBLES VARIACIONES EN ESCALA NANOMETRICA Y EXTENDER SUS POSIBLES APLICACIONES AL CAMPO DE LA BIO-MEDICINA (TRANSPORTADORES DE FARMACOS O MOLECULAS DE INTERES BIOLOGICO, BACTERICIDAS¿)._x000D_ EN RESUMEN, ESPERAMOS DESARROLLAR MATERIALES MULTIFUNCIONALES ESTIMULO-RESPUESTA CON POSIBLE RECONOCIMIENTO MOLECULAR QUE PUEDAN COMBINAR PROPIEDADES TALES COMO POROSIDAD Y CONDUCTIVIDAD ELECTRICA, MAGNETISMO, LUMINISCENCIA¿, TANTO EN LA MACROESCALA COMO PROCESADOS A ESCALA NANOMETRICA, A FIN DE OBTENER UNA NUEVA FAMILIA DE MATERIALES ALTAMENTE COMPETITIVOS Y SIN PRECEDENTES. (Spanish)
    0 references
    THE DESIGN AND SYNTHESIS OF COORDINATION POLYMERS, BASED ON LIGANDS WITH MOLECULAR RECOGNITION CAPACITY TOWARDS BIOLOGICAL SYSTEMS, AND THEIR STUDY AT THE NANOSCALE ARE VERY INTERESTING TOPICS DUE TO THEIR PROJECTION IN VERY DIVERSE APPLICATIONS AND AREAS OF STUDY. THE PROPER SELECTION OF METAL AND ORGANIC LIGANDS ALLOWS TO MODULATE THE PHYSICAL AND CHEMICAL PROPERTIES OF THESE POLYMERS AS WELL AS THEIR DIMENSIONALITY AND STRUCTURE. This makes it possible to observe MATERIALS THAT COMBINAN DYSTINTS PROPERTY AS LUMINISCENCE, MAGNETISM, ELECTRONIC CONDUCTIVITY, GASES adsorption, ETC. _x000D_ Nitrogenated BASES (INCLUDED Nucleobases AND DERIVED), with MULTIPLES ATOMOS DADORES, they offer a great capacity to coordinate themselves to the metallic centres, and they can also intervene in processes of mutual recognition, primarily through the formation of hydrogenic links with other biologic interests. _x000D_ the PROJECT is CENTRATED IN THE PREPARATION OF COORDINATION PREPARATIONS BASED IN ORGANIC LIGANDS FOR INTERVENTION IN MOLECULAR RECOGNISING PROCESSES, TALS AS Nitrogen BASES WITH ADDITIONAL FUNCIONAL GROUPS (AMINS, Carboxylic GRUPOS, hydroxylos), to evaluate your capacity of adsorption, (in the case of open structures), your ELECTRONIC, MAGNETIC AND OPTICAL PROPERTY, even as your possible process as NANOMATERIAL. For another side, the use of BIO-BASE BIO-INSPIRATE MATERIALS IS PRESSURE._x000D_ THE USE OF METAL-BASE NITROGENATE ENTITIES AS BASIC CONSTRUCTION UNITY CAN BE PLACETED TO EXTENT GENERED STRUCTURES of coORDINACION or by supramolecular ensemble enter the liginds anchored to the metallic centres. IN MANY CASES, THE METHOD OF COORDINATION OF THE NITROGEN BASES IMPOSES A GEOMETRIC RIGIDITY ON THE METAL-LIGANDO UNITS, WHICH TOGETHER WITH THE COMPLEMENTARY HYDROGEN BONDS ESTABLISHED BETWEEN THE LIGANDS GIVE RISE TO STRUCTURAL RESTRICTIONS THAT INVOLVE THE APPEARANCE OF POROSITY. The WORK OF WORKING WITH METAL-LIGANING COORDINACTION LINKS PROPORCION TO THE YOUR ONE, DINAMISMO, THANK YOU TO THE HABILITY THAT THE METALIC IONES, TO RECOMMEND, INTERCAMBIATE OR ELIMINATE molecules of their environment, and to the FLEXIBILITY AND FUNCIONALITY OF THE ORGANIC LIGANDS Selected, Above for Highly Utilities in the OBTENTION OF MATERIALS._x000D_ ON THIS BASE, THE PROJECT HAVE AS FIRST OBJECTIVE TO GENERAL NEW MATERIALS WITH PROPERTY OPTOELECTRONIC AND adsorption CAPACES FOR VARIED STIMULES (Sensorica). The OBJECTIVE SECOND TO PROCEDURE THESE COMPOSES AS NANO-MATERIALS WITH A BOTTOM-UP STRATEGY TO STUDY THIS PROPERTY AND POSIBLE VARIATIONS IN NONNOmetric ESCAL AND EXTENTS YOUR POSIBLE APPLICATIONS TO THE BIO-MEDICINE CHANGE (TRANSPORTERS OF PHARMACS or molecules of INTER-BIOLOGICAL, BACTERICIDS)._x000D_ In summary, we hope to develop MULTIFUNCIONAL MULTIFUNCIONAL MATERIALS ESTIMULO-RESPOSE WITH POSSIBLE MOLECULAR RECOGNISING THAT PROPERTY PROPERTY as porosity and ELECTRICAL CONDUCTIVITY, MAGNETISM, LUMINISCENCE, as at the macroscale as processed at nanometric scaffold, to the end of having a new FAMILY OF MATERIALS HIGHLY COMPETITIVE AND WITHOUT PRIECEDENTS. (English)
    12 October 2021
    0 references
    Leioa
    0 references

    Identifiers

    MAT2016-75883-C2-1-P
    0 references