SMART (MULTI)FUNCTIONAL PHOTOACTIVE NANOSYSTEMS (Q3171731): Difference between revisions
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(Removed claim: summary (P836): THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF T...) |
(Created claim: summary (P836): THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF THE...) |
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THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF THESE STUDIES IS THE DEMAND OF NEW INTELIGENT NANOMATERIALS who benefit from (i) the one-way answer of NATURENT DIFERENT MATERIALALS to the excitation with visual light or in the gorcing, the COMBINACTION OF DIFFERENT FUNCIONALITIES OF INorganic MATERIALS DISTINTOS, III) THE FUNCIONALISATION OF THE SUPERFICE OF THE INORGANIC NUCLEO OF THE NANOparticula WITH ORGANIC MATERIALS._x000D_ METALICAL photoactive NPS, semiconductors OR Upconversion PRESENT UNIQUE PROPERTYS, ALL AS HIGH RELATION SUPERFICIE-VOLUMEN AND OPTICAL PROPERTY DEPENDENTS OF SIZE. THE NPS CAN BE COATED WITH LIGANDS, WHICH HAVE AN ANCHORING ATOM AT ONE END WITH AN AFFINITY FOR THE SURFACE OF NP WHILE THE OTHER END PROVIDES THE PERIPHERY NP WITH THE DESIRED HYDROPHOBICITY OR HYDROPHILICITY REQUIRED FOR EACH APPLICATION. _x000D_ alternatively, ORGANIC RECUBRIATING CAN BE a POLIMER OF A GREAT NUMBER OF FUNCIONAL GROUPS TO ANCLARY THE SUPERFICE OF THE NP. THIS CAN ALSO BE USED TO INTRODUCE FUNCTIONALITY TO THE NP PERIPHERY. THEREFORE, NPS ACTS AS A 3D PLATFORM, RESULTING IN A HIGH LOCAL CONCENTRATION OF A FUNCTIONAL UNIT ON THE NP PERIPHERY AND THE PN’S PHOTOFISICAS PROPERTIES COULD ALSO BE ADJUSTED ACCORDINGLY. IN ADDITION, FUNCTIONAL HYBRID INORGANIC NANOMATERIALS ARE PROMISING IN NANOTECHNOLOGICAL APPLICATIONS. THE COMBINATION OF INORGANIC/NP COMPONENTS IN A HYBRID STRUCTURE CAN EXHIBIT NOT ONLY THE PROPERTIES OF INDIVIDUAL CONSTITUENTS, BUT ALSO NEW ONES. AS FOR INORGANIC HYBRIDS, NANOSTRUCTURES CAN INDUCE SYNERGISTIC PROPERTIES DERIVED FROM PARTITION-PARTICULA INTERFACIAL INTERACTIONS. This can be used to prepare NANOHIBRIDS OF POTENTIAL APPLICATION IN SOLAR ENERGY CONVERSION, MOLECULAR RECOgnition, PHARMAC ADMINISTRATION, ETC._x000D_ THE FABRICATION OF MULTIFUNCIONAL NPS with a COMBINANCING OF PROPERTIES, as DISPERSABILITY IN WATER, EMISION, AND RESPONSE TO EXTERNAL STIMULES (for example, PH, LIGHT, OR TEMPERATURE) is of great interest for biomedical applications and bioengineering, BETTER OTHER._x000D_ the systems to be established in this project are based on: _x000D_ 1. NPS PLASMONICAS (AUNPS) and GOLD nanoclusters (AUNCS)._x000D_ 2. NAYF4 UPCONVERSION nanoparticulates._x000D_ 3. ORGANIC-INORGANIC PEROVSKITA NPS OF LEAD HALIDE WITH DIFFERENT PB ESTEQUIOMETRYS/HALOGENS AND ORGANIC-INORGANIC METAL PEROVSKITES WITHOUT LEAD. _x000D_ 4. MESOPOROUS NPS-BASED MULTIFUNCTIONAL PLATFORMS INCORPORATING TWO TYPES OF NPS. (English) | |||||||||||||||
Property / summary: THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF THESE STUDIES IS THE DEMAND OF NEW INTELIGENT NANOMATERIALS who benefit from (i) the one-way answer of NATURENT DIFERENT MATERIALALS to the excitation with visual light or in the gorcing, the COMBINACTION OF DIFFERENT FUNCIONALITIES OF INorganic MATERIALS DISTINTOS, III) THE FUNCIONALISATION OF THE SUPERFICE OF THE INORGANIC NUCLEO OF THE NANOparticula WITH ORGANIC MATERIALS._x000D_ METALICAL photoactive NPS, semiconductors OR Upconversion PRESENT UNIQUE PROPERTYS, ALL AS HIGH RELATION SUPERFICIE-VOLUMEN AND OPTICAL PROPERTY DEPENDENTS OF SIZE. THE NPS CAN BE COATED WITH LIGANDS, WHICH HAVE AN ANCHORING ATOM AT ONE END WITH AN AFFINITY FOR THE SURFACE OF NP WHILE THE OTHER END PROVIDES THE PERIPHERY NP WITH THE DESIRED HYDROPHOBICITY OR HYDROPHILICITY REQUIRED FOR EACH APPLICATION. _x000D_ alternatively, ORGANIC RECUBRIATING CAN BE a POLIMER OF A GREAT NUMBER OF FUNCIONAL GROUPS TO ANCLARY THE SUPERFICE OF THE NP. THIS CAN ALSO BE USED TO INTRODUCE FUNCTIONALITY TO THE NP PERIPHERY. THEREFORE, NPS ACTS AS A 3D PLATFORM, RESULTING IN A HIGH LOCAL CONCENTRATION OF A FUNCTIONAL UNIT ON THE NP PERIPHERY AND THE PN’S PHOTOFISICAS PROPERTIES COULD ALSO BE ADJUSTED ACCORDINGLY. IN ADDITION, FUNCTIONAL HYBRID INORGANIC NANOMATERIALS ARE PROMISING IN NANOTECHNOLOGICAL APPLICATIONS. THE COMBINATION OF INORGANIC/NP COMPONENTS IN A HYBRID STRUCTURE CAN EXHIBIT NOT ONLY THE PROPERTIES OF INDIVIDUAL CONSTITUENTS, BUT ALSO NEW ONES. AS FOR INORGANIC HYBRIDS, NANOSTRUCTURES CAN INDUCE SYNERGISTIC PROPERTIES DERIVED FROM PARTITION-PARTICULA INTERFACIAL INTERACTIONS. This can be used to prepare NANOHIBRIDS OF POTENTIAL APPLICATION IN SOLAR ENERGY CONVERSION, MOLECULAR RECOgnition, PHARMAC ADMINISTRATION, ETC._x000D_ THE FABRICATION OF MULTIFUNCIONAL NPS with a COMBINANCING OF PROPERTIES, as DISPERSABILITY IN WATER, EMISION, AND RESPONSE TO EXTERNAL STIMULES (for example, PH, LIGHT, OR TEMPERATURE) is of great interest for biomedical applications and bioengineering, BETTER OTHER._x000D_ the systems to be established in this project are based on: _x000D_ 1. NPS PLASMONICAS (AUNPS) and GOLD nanoclusters (AUNCS)._x000D_ 2. NAYF4 UPCONVERSION nanoparticulates._x000D_ 3. ORGANIC-INORGANIC PEROVSKITA NPS OF LEAD HALIDE WITH DIFFERENT PB ESTEQUIOMETRYS/HALOGENS AND ORGANIC-INORGANIC METAL PEROVSKITES WITHOUT LEAD. _x000D_ 4. MESOPOROUS NPS-BASED MULTIFUNCTIONAL PLATFORMS INCORPORATING TWO TYPES OF NPS. (English) / rank | |||||||||||||||
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Property / summary: THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF THESE STUDIES IS THE DEMAND OF NEW INTELIGENT NANOMATERIALS who benefit from (i) the one-way answer of NATURENT DIFERENT MATERIALALS to the excitation with visual light or in the gorcing, the COMBINACTION OF DIFFERENT FUNCIONALITIES OF INorganic MATERIALS DISTINTOS, III) THE FUNCIONALISATION OF THE SUPERFICE OF THE INORGANIC NUCLEO OF THE NANOparticula WITH ORGANIC MATERIALS._x000D_ METALICAL photoactive NPS, semiconductors OR Upconversion PRESENT UNIQUE PROPERTYS, ALL AS HIGH RELATION SUPERFICIE-VOLUMEN AND OPTICAL PROPERTY DEPENDENTS OF SIZE. THE NPS CAN BE COATED WITH LIGANDS, WHICH HAVE AN ANCHORING ATOM AT ONE END WITH AN AFFINITY FOR THE SURFACE OF NP WHILE THE OTHER END PROVIDES THE PERIPHERY NP WITH THE DESIRED HYDROPHOBICITY OR HYDROPHILICITY REQUIRED FOR EACH APPLICATION. _x000D_ alternatively, ORGANIC RECUBRIATING CAN BE a POLIMER OF A GREAT NUMBER OF FUNCIONAL GROUPS TO ANCLARY THE SUPERFICE OF THE NP. THIS CAN ALSO BE USED TO INTRODUCE FUNCTIONALITY TO THE NP PERIPHERY. THEREFORE, NPS ACTS AS A 3D PLATFORM, RESULTING IN A HIGH LOCAL CONCENTRATION OF A FUNCTIONAL UNIT ON THE NP PERIPHERY AND THE PN’S PHOTOFISICAS PROPERTIES COULD ALSO BE ADJUSTED ACCORDINGLY. IN ADDITION, FUNCTIONAL HYBRID INORGANIC NANOMATERIALS ARE PROMISING IN NANOTECHNOLOGICAL APPLICATIONS. THE COMBINATION OF INORGANIC/NP COMPONENTS IN A HYBRID STRUCTURE CAN EXHIBIT NOT ONLY THE PROPERTIES OF INDIVIDUAL CONSTITUENTS, BUT ALSO NEW ONES. AS FOR INORGANIC HYBRIDS, NANOSTRUCTURES CAN INDUCE SYNERGISTIC PROPERTIES DERIVED FROM PARTITION-PARTICULA INTERFACIAL INTERACTIONS. This can be used to prepare NANOHIBRIDS OF POTENTIAL APPLICATION IN SOLAR ENERGY CONVERSION, MOLECULAR RECOgnition, PHARMAC ADMINISTRATION, ETC._x000D_ THE FABRICATION OF MULTIFUNCIONAL NPS with a COMBINANCING OF PROPERTIES, as DISPERSABILITY IN WATER, EMISION, AND RESPONSE TO EXTERNAL STIMULES (for example, PH, LIGHT, OR TEMPERATURE) is of great interest for biomedical applications and bioengineering, BETTER OTHER._x000D_ the systems to be established in this project are based on: _x000D_ 1. NPS PLASMONICAS (AUNPS) and GOLD nanoclusters (AUNCS)._x000D_ 2. NAYF4 UPCONVERSION nanoparticulates._x000D_ 3. ORGANIC-INORGANIC PEROVSKITA NPS OF LEAD HALIDE WITH DIFFERENT PB ESTEQUIOMETRYS/HALOGENS AND ORGANIC-INORGANIC METAL PEROVSKITES WITHOUT LEAD. _x000D_ 4. MESOPOROUS NPS-BASED MULTIFUNCTIONAL PLATFORMS INCORPORATING TWO TYPES OF NPS. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 19:13, 12 October 2021
Project Q3171731 in Spain
Language | Label | Description | Also known as |
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English | SMART (MULTI)FUNCTIONAL PHOTOACTIVE NANOSYSTEMS |
Project Q3171731 in Spain |
Statements
54,450.0 Euro
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108,900.0 Euro
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50.0 percent
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1 January 2015
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30 June 2018
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UNIVERSIDAD DE VALENCIA
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46190
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ESTE PROYECTO PRETENDE OBTENER NUEVAS NANOPARTICULAS (NPS) FUNCIONALES CON UN NUCLEO FOTOACTIVO, COMBINADO O NO CON OTRO MATERIAL DE DIFERENTE FUNCIONALIDAD, Y UN RECUBRIMENTO ORGANICO (MULTI)FUNCIONAL. EL ESTUDIO DEL EFECTO SIMBIOTICO ENTRE ELLOS ES CRUCIAL PARA APLICARLOS EN LA DETECCION, TRATAMIENTO DE IMAGENES O TERAPIA, ENTRE OTROS. ALGUNOS DE ESTOS HIBRIDOS PODRIAN ACTUAR COMO PLATAFORMAS MULTIFUNCIONALES QUE INTEGRAN VARIAS FUNCIONES._x000D_ EL INTERES DE ESTOS ESTUDIOS ES LA DEMANDA DE NUEVOS NANOMATERIALES INTELIGENTES QUE SE BENEFICIEN DE I) LA RESPUESTA UNICA DE MATERIALES DE DIFERENTE NATURALEZA A LA EXCITACION CON LUZ VISIBLE O EN EL IR CERCANO, II) LA COMBINACION DE DIFERENTES FUNCIONALIDADES DE MATERIALES INORGANICOS DISTINTOS, III) LA RELATIVAMENTE FACIL FUNCIONALIZACION DE LA SUPERFICIE DEL NUCLEO INORGANICO DE LA NANOPARTICULA CON MATERIALES ORGANICOS._x000D_ LAS NPS FOTOACTIVAS METALICAS, SEMICONDUCTORAS O DE UPCONVERSION PRESENTAN PROPIEDADES UNICAS, TALES COMO ALTA RELACION SUPERFICIE-VOLUMEN Y PROPIEDADES OPTICAS DEPENDIENTES DEL TAMAÑO. LAS NPS PUEDEN ESTAR RECUBIERTAS CON LIGANDOS, QUE POSEEN UN ATOMO DE ANCLAJE EN UN EXTREMO CON AFINIDAD POR LA SUPERFICIE DE NP MIENTRAS QUE EL OTRO EXTREMO PROPORCIONA A LA PERIFERIA NP CON LA HIDROFOBICIDAD O HIDROFILICIDAD DESEADA NECESARIA PARA CADA APLICACION. _x000D_ ALTERNATIVAMENTE, EL RECUBRIMIENTO ORGANICO PUEDE SER UN POLIMERO QUE PRESENTE UN GRAN NUMERO DE GRUPOS FUNCIONALES PARA ANCLAR A LA SUPERFICIE DE LA NP. ESTO SE PUEDE UTILIZAR TAMBIEN PARA INTRODUCIR FUNCIONALIDAD EN LA PERIFERIA NP. POR TANTO, LAS NPS ACTUAN COMO UNA PLATAFORMA 3D, QUE DA LUGAR A UNA ALTA CONCENTRACION LOCAL DE UNA UNIDAD FUNCIONAL EN LA PERIFERIA NP Y LAS PROPIEDADES FOTOFISICAS DE LA NP TAMBIEN PODRIAN AJUSTARSE COMO CONSECUENCIA. ADEMAS, LOS NANOMATERIALES INORGANICOS HIBRIDOS FUNCIONALES SON PROMETEDORES EN APLICACIONES NANOTECNOLOGICAS. LA COMBINACION DE COMPONENTES INORGANICOS/NP EN UNA ESTRUCTURA HIBRIDA PUEDE EXHIBIR NO SOLO LAS PROPIEDADES DE LOS CONSTITUYENTES INDIVIDUALES, SINO OTRAS NUEVAS. EN CUANTO A LOS HIBRIDOS INORGANICOS, LAS NANOESTRUCTURAS PUEDEN INDUCIR PROPIEDADES SINERGICAS DERIVADAS DE INTERACCIONES INTERFACIALES PARTICULA-PARTICULA. ESTO PUEDE SER UTILIZADO PARA PREPARAR NANOHIBRIDOS DE POTENCIAL APLICACION EN CONVERSION DE ENERGIA SOLAR, RECONOCIMIENTO MOLECULAR, ADMINISTRACION DE FARMACOS, ETC._x000D_ LA FABRICACION DE NPS MULTIFUNCIONALES CON UNA COMBINACION DE PROPIEDADES, TALES COMO DISPERSABILIDAD EN AGUA, EMISION, Y LA RESPUESTA A LOS ESTIMULOS EXTERNOS (POR EJEMPLO, PH, LUZ, O TEMPERATURA) ES DE GRAN INTERES PARA APLICACIONES BIOMEDICAS Y BIOINGENIERIA, ENTRE OTRAS._x000D_ LOS SISTEMAS A ESTUDIAR EN ESTE PROYECTO SE BASAN EN: _x000D_ 1. NPS PLASMONICAS (AUNPS) Y NANOCLUSTERS DE ORO (AUNCS)._x000D_ 2. NAYF4 NANOPARTICULAS DE UPCONVERSION._x000D_ 3. NPS DE PEROVSKITA ORGANICO-INORGANICOS DE HALUROS DE PLOMO CON DIFERENTES ESTEQUIOMETRIAS PB/HALOGENOS Y PEROVSKITAS METALICAS ORGANICO-INORGANICAS SIN PLOMO. _x000D_ 4. PLATAFORMAS MULTIFUNCIONALES BASADAS EN NPS MESOPOROSAS INCORPORANDO DOS TIPOS DE NPS. (Spanish)
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THIS PROJECT AIMS TO OBTAIN NEW FUNCTIONAL NANOPARTICULATES (NPS) WITH A PHOTOACTIVE NUCLEUS, WHETHER OR NOT COMBINED WITH OTHER MATERIAL OF DIFFERENT FUNCTIONALITY, AND AN ORGANIC (MULTI)FUNCTIONAL COATING. THE STUDY OF THE SYMBIOTIC EFFECT AMONG THEM IS CRUCIAL TO APPLY THEM IN DETECTION, IMAGING OR THERAPY, AMONG OTHERS. Some of these HIBRIDs can act as multi-substantial PLATAFORMS that integrate variance functions._x000D_ THE INTEREST OF THESE STUDIES IS THE DEMAND OF NEW INTELIGENT NANOMATERIALS who benefit from (i) the one-way answer of NATURENT DIFERENT MATERIALALS to the excitation with visual light or in the gorcing, the COMBINACTION OF DIFFERENT FUNCIONALITIES OF INorganic MATERIALS DISTINTOS, III) THE FUNCIONALISATION OF THE SUPERFICE OF THE INORGANIC NUCLEO OF THE NANOparticula WITH ORGANIC MATERIALS._x000D_ METALICAL photoactive NPS, semiconductors OR Upconversion PRESENT UNIQUE PROPERTYS, ALL AS HIGH RELATION SUPERFICIE-VOLUMEN AND OPTICAL PROPERTY DEPENDENTS OF SIZE. THE NPS CAN BE COATED WITH LIGANDS, WHICH HAVE AN ANCHORING ATOM AT ONE END WITH AN AFFINITY FOR THE SURFACE OF NP WHILE THE OTHER END PROVIDES THE PERIPHERY NP WITH THE DESIRED HYDROPHOBICITY OR HYDROPHILICITY REQUIRED FOR EACH APPLICATION. _x000D_ alternatively, ORGANIC RECUBRIATING CAN BE a POLIMER OF A GREAT NUMBER OF FUNCIONAL GROUPS TO ANCLARY THE SUPERFICE OF THE NP. THIS CAN ALSO BE USED TO INTRODUCE FUNCTIONALITY TO THE NP PERIPHERY. THEREFORE, NPS ACTS AS A 3D PLATFORM, RESULTING IN A HIGH LOCAL CONCENTRATION OF A FUNCTIONAL UNIT ON THE NP PERIPHERY AND THE PN’S PHOTOFISICAS PROPERTIES COULD ALSO BE ADJUSTED ACCORDINGLY. IN ADDITION, FUNCTIONAL HYBRID INORGANIC NANOMATERIALS ARE PROMISING IN NANOTECHNOLOGICAL APPLICATIONS. THE COMBINATION OF INORGANIC/NP COMPONENTS IN A HYBRID STRUCTURE CAN EXHIBIT NOT ONLY THE PROPERTIES OF INDIVIDUAL CONSTITUENTS, BUT ALSO NEW ONES. AS FOR INORGANIC HYBRIDS, NANOSTRUCTURES CAN INDUCE SYNERGISTIC PROPERTIES DERIVED FROM PARTITION-PARTICULA INTERFACIAL INTERACTIONS. This can be used to prepare NANOHIBRIDS OF POTENTIAL APPLICATION IN SOLAR ENERGY CONVERSION, MOLECULAR RECOgnition, PHARMAC ADMINISTRATION, ETC._x000D_ THE FABRICATION OF MULTIFUNCIONAL NPS with a COMBINANCING OF PROPERTIES, as DISPERSABILITY IN WATER, EMISION, AND RESPONSE TO EXTERNAL STIMULES (for example, PH, LIGHT, OR TEMPERATURE) is of great interest for biomedical applications and bioengineering, BETTER OTHER._x000D_ the systems to be established in this project are based on: _x000D_ 1. NPS PLASMONICAS (AUNPS) and GOLD nanoclusters (AUNCS)._x000D_ 2. NAYF4 UPCONVERSION nanoparticulates._x000D_ 3. ORGANIC-INORGANIC PEROVSKITA NPS OF LEAD HALIDE WITH DIFFERENT PB ESTEQUIOMETRYS/HALOGENS AND ORGANIC-INORGANIC METAL PEROVSKITES WITHOUT LEAD. _x000D_ 4. MESOPOROUS NPS-BASED MULTIFUNCTIONAL PLATFORMS INCORPORATING TWO TYPES OF NPS. (English)
12 October 2021
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Paterna
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Identifiers
CTQ2014-60174-P
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