CUSTOMISED ADVANCED PHOTOACTIVE NANOMATERIALS (Q3145729)
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Project Q3145729 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | CUSTOMISED ADVANCED PHOTOACTIVE NANOMATERIALS |
Project Q3145729 in Spain |
Statements
79,860.0 Euro
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159,720.0 Euro
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50.0 percent
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1 January 2018
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31 December 2020
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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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LOS NANOMATERIALES ESTAN A LA VANGUARDIA DADO EL RAPIDO DESARROLLO DE LA NANOTECNOLOGIA DEBIDO A SUS EXCLUSIVAS PROPIEDADES ELECTRONICAS, OPTICAS Y MAGNETICAS. ESTE PROYECTO MULTIDISCIPLINAR TIENE COMO OBJETIVO LA OBTENCION DE NANOMATERIALES FOTOACTIVOS AVANZADOS ADECUADOS PARA APLICACIONES BIOLOGICAS, DETECCION, IMAGEN, TERAPIA, FOTOCATALISIS Y OPTOELECTRONICA. EL PROYECTO CUBRE UNA AMPLIA COMBINACION DE METODOLOGIAS SENCILLAS, NOVEDOSAS Y VERSATILES PARA FABRICAR NANOMATERIALES QUE CONSISTEN EN UN NUCLEO FOTOACTIVO INORGANICO, CON O SIN RECUBRIMIENTO(S) INORGANICO(S) DE OTRO MATERIAL, PROTEGIDO CON UNA CAPA DE MATERIAL ORGANICO CON FUNCIONALIDAD ESPECIFICA. CABE DESTACAR QUE LA FUNCIONALIDAD DEL NANOMATERIAL SE BASA EN EL EFECTO SINERGICO ENTRE LA NANOPARTICULA INORGANICA Y LA CAPA ORGANICA. ESTA INVESTIGACION ES UNA EXTENSION NATURAL DE LA EXPERIENCIA PREVIA Y LAS LINEAS DE INVESTIGACION YA ESTABLECIDAS EN NUESTRO GRUPO. DOMINAMOS LA PREPARACION DE NANOPARTICULAS Y MOLECULAS ORGANICAS, PERO TAMBIEN LOS PROCESOS FOTOQUIMICOS Y FOTOFISICOS QUE TIENEN LUGAR CUANDO AMBAS SE COMBINAN. POR LO TANTO, ESTAMOS PREPARADOS PARA DISEÑAR Y FABRICAR NUEVOS NANOMATERIALES FOTOACTIVOS BAJO DEMANDA PARA NECESIDADES ESPECIFICAS, ES DECIR, NANOMATERIALES AVANZADOS HECHOS A MEDIDA REQUERIDOS PARA DESARROLLAR Y LIDERAR NUEVAS TECNOLOGIAS. _x000D_ POR TANTO, EL PRESENTE PROYECTO CONTRIBUIRA AL DESARROLLO DE NANOMATERIALES FOTOACTIVOS AVANZADOS. AUNQUE RECIENTEMENTE SE HA GENERADO UNA GRAN CANTIDAD DE INFORMACION SOBRE NANOPARTICULAS METALICAS, DE UPCONVERSION Y DE PEROVSKITA, NUESTRO ENFOQUE VA MAS ALLA DEL ESTADO DEL ARTE EN ESTE CAMPO EMERGENTE. ADEMAS, ESTOS NANOMATERIALES PUEDEN SER DE INTERES EN OTRAS APLICACIONES MAS ALLA DE LAS ABORDADAS EN ESTE PROYECTO. ESTE PROYECTO APORTARA UNA IMPORTANTE CONTRIBUCION A LA APLICACION DE NANOPARTICULAS FOTOACTIVAS A LA NANOTECNOLOGIA. IMPACTO CIENTIFICO: DESARROLLO DE MATERIALES AVANZADOS QUE USAN LUZ VISIBLE O IR CERCANO. IMPACTO ECONOMICO: NUEVAS OPORTUNIDADES DE NEGOCIO PARA LAS EMPRESAS EMERGENTES. IMPACTO SOCIAL: DESARROLLO DE MATERIALES PARA DIAGNOSTICO Y TERAPIA, CATALISIS, DISPOSITIVOS OPTICOS, SEGURIDAD Y MEJORA DE CELULAS SOLARES. CAPACITACION DE PERSONAL Y CIENTIFICOS EN TEMAS DE TECNOLOGIA PUNTERA. IMPACTO AMBIENTAL: LOS NANOMATERIALES DE ORO, Y UPCONVERSION NO SON TOXICOS Y MUESTRAN UNA GRAN FOTOESTABILIDAD. (Spanish)
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NANOMATERIALS ARE AT THE LEADING EDGE OF THE RAPIDLY DEVELOPING FIELD OF NANOTECHNOLOGY DUE TO THEIR UNIQUE ELECTRONIC, OPTICAL, AND MAGNETIC PROPERTIES. THIS MULTIDISCIPLINARY PROJECT AIMS AT OBTAINING TAILOR-MADE ADVANCED PHOTOACTIVE NANOMATERIALS SUITABLE FOR BIOLOGICAL APPLICATIONS, SENSING, IMAGING, THERAPY, PHOTOCATALYSIS AND OPTOELECTRONICS. THE PROJECT COVERS A BROAD COMBINATION OF SIMPLE, NOVEL, AND VERSATILE METHODOLOGIES TO MAKE NANOMATERIALS CONSISTING OF AN INORGANIC PHOTOACTIVE CORE, WITH OR WITHOUT INORGANIC SHELL(S) OF OTHER MATERIAL, CAPPED WITH A FUNCTIONAL ORGANIC CAPPING. REMARKABLY, THE FUNCTIONALITY OF THE NANOMATERIAL IS BASED ON THE SYNERGISTIC EFFECT BETWEEN THE INORGANIC NANOPARTICLE AND THE ORGANIC CAPPING. _x000D_ THIS CUTTING-EDGE RESEARCH IS A NATURAL EXTENSION OF THE PREVIOUS EXPERTISE AND RESEARCH LINES ALREADY ESTABLISHED IN OUR GROUP. WE MASTER NOT ONLY THE PREPARATION OF NANOPARTICLES AND ORGANIC MOLECULES BUT ALSO THE PHOTOCHEMICAL AND PHOTOPHYSICAL PROCESSES THAT TAKE PLACE WHEN BOTH ARE COMBINED. THEREFORE, WE ARE READY TO DESIGN AND MAKE NEW PHOTOACTIVE NANOMATERIALS ON DEMAND FOR SPECIFIC NEEDS, I.E, TAILOR-MADE ADVANCED NANOMATERIALS AS REQUIERED TO DEVELOP AND LEAD NEW TECHNOLOGIES._x000D_ ACCORDINGLY, THE PRESENT PROJECT WILL CONTRIBUTE TO THE DEVELOPMENT OF ADVANCED PHOTOACTIVE NANOMATERIALS. ALTHOUGH A GREAT QUANTITY OF INFORMATION HAS BEEN RECENTLY GENERATED ABOUT METALLIC, UPCONVERSION, AND PEROVSKITE NANOPARTICLES, OUR APPROACH GOES BEYOND THE STATE-OF-THE-ART IN THIS EMERGING FIELD. IN ADDITION, THESE NANOMATERIALS CAN BE OF INTEREST IN OTHER APPLICATIONS BEYOND THOSE ADDRESSED IN THIS PROJECT._x000D_ THIS PROJECT WILL MAKE AN IMPORTANT CONTRIBUTION TO THE APPLICATION OF PHOTOACTIVE NANOPARTICLES TO NANOTECHNOLOGY. SCIENTIFIC IMPACT: DEVELOPMENT OF ADVANCED MATERIALS WHICH USE VISIBLE OR NEAR-IR LIGHT. ECONOMIC IMPACT: NEW BUSINESS OPPORTUNITIES FOR START-UP COMPANIES. SOCIAL IMPACT: DEVELOPMENT OF MATERIALS FOR DIAGNOSIS AND THERAPY, CATALYSIS, OPTICAL DEVICES, SECURITY PURPOSES AND IMPROVEMENT OF SOLAR CELLS. TRAINING OF STAFF AND SCIENTISTS IN HIGH-TECH SUBJECTS. ENVIRONMENTAL IMPACT: GOLD NANOMATERIALS, AND UPCONVERSION ARE NON-TOXIC AND SHOW GREAT PHOTOSTABILITY. (English)
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Paterna
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Identifiers
CTQ2017-82711-P
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