DEVELOPMENT OF NEW MATERIALS AND DEVICES WITH OPTIONAL INTERROGATION FOR BIOSENSOR APPLICATIONS (Q3191646): Difference between revisions

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(‎Changed label, description and/or aliases in en: translated_label)
(‎Removed claim: summary (P836): THIS PROJECT AIMS TO OBTAIN NEW NANOMARKERS SIMPLE OR HYBRID TO BE USED AS CELLULAR PROBES AND ALSO DEVELOP NEW INTEGRATED PLATFORMS OPTO-FLUIDICAS FOR APPLICATIONS IN BIOMEDICINE. _x000D_ for WHAT REFERRED TO NPS MATERIALS TO NNOmetric SCALE INCORPORANED doping that generate DIFFERENT FISIUS RESPRESSIONS (OPTICS, thermals and MAGNETICAS). FOR MATRICES, THE STUDY OF HIGH FONON (OXIDE) AND LOW FONON (FLUORIDE) MATERIALS WILL BE ADDRESSED IN ORD...)
Property / summary
THIS PROJECT AIMS TO OBTAIN NEW NANOMARKERS SIMPLE OR HYBRID TO BE USED AS CELLULAR PROBES AND ALSO DEVELOP NEW INTEGRATED PLATFORMS OPTO-FLUIDICAS FOR APPLICATIONS IN BIOMEDICINE. _x000D_ for WHAT REFERRED TO NPS MATERIALS TO NNOmetric SCALE INCORPORANED doping that generate DIFFERENT FISIUS RESPRESSIONS (OPTICS, thermals and MAGNETICAS). FOR MATRICES, THE STUDY OF HIGH FONON (OXIDE) AND LOW FONON (FLUORIDE) MATERIALS WILL BE ADDRESSED IN ORDER TO SELECT PREFERENTIAL CHANNELS FOR RADIATIVE OR NON-RADIATIVE DESEXCITATION. MORE CONCRETELY, THE MATERIALS TO BE STUDIED ARE: OXIDES; AS DOUBLE MONOCLINIC WOLFRAMATES (KREW), VANADATES (XVO4) AND PHOSPHATES (XPO4); FLUORIDES, NAXF4 (X = Y3+, LA3+, GD3+,) AND MF2 (M = MG2+, CA2+, SR2+) AND HYBRID SYSTEMS WITH STRUCTURES OF THE CORE-SHELL-PLASMON TYPE, INCORPORATING METAL AND/OR GRAPHENE NPS. In addition, these MATERIALS will incorporate RAR EARTY IONES (RE3+ = YB3+, ER3+, TM3+, HO3+, ND3+...) AND/O TRANSICATION METALS (TM = CR3+, MN2+, BI3+, BI3+) RESPONSIBLE OF LUMINISCENT CHARACTERISTICS OF SONDAS._x000D_ IN FROM MICROFLUIDICAS PLATAFORMS WITH OPTIC QUESTION, we will also explore DIFERENT DESIGNS in relation to microfluidic circles as to the INTEGRATED OPTIC CONFIGURATION. IN THE CASE OF MICROFLUIDIC CIRCUITS, MICROFLUIDICAS GEOMETRIES WILL BE EXPLORED TO ALLOW AND IMPROVE MOTOR, OPERABILITY AND FLOW CONTROL, WHILE ALLOWING AN OPTIMAL INTERACTION WITH WAVEGUIDES, EITHER LONGITUDINALLY OR TRANSVERSELY. IN PARTICULAR, THE DEVELOPMENT OF A HYDRODYNAMIC CLAMP THAT ALLOWS THE TRAPPING OF CELLS AND MACROMOLECULES IN FLUID MEDIUM FOR OBSERVATION OR MANIPULATION AND A NEW FLOW CITOMETRO THAT ALLOWS MULTIPARAMETRIC ANALYSIS. IN TERMS OF MATERIALS, DIFFERENT SUBSTRATES WILL BE EXPLORED, WHICH PROVIDE DIFFERENTIAL CHARACTERISTICS AND WHOSE ADVANTAGES SHOULD BE EVALUATED THROUGHOUT THE PROJECT. Specifically, the use of PDMS as a means of perpetuating the initial development of microfluidic designs, which will be transferred to Silica and WOLFRAMATOs._x000D_ The GENERAL OBJECTIVE OF THIS PROJECT IS BY THE DEVELOPMENT OF NEW OPTO-fluidic DISPOSITIVES by means of INTEGRATION IN miniaturised nanoscience, PHOTONICAL AND MICROPHLUIDIC PLATAFORMS, allow to improve the technology of studium and cell analysis, so that it may be possible to carry out diagnostic treatment and to propose treatment of less than INVASIV IN BIOMEDICINE._x000D_ THIS OBJECTIVE general to be agreed upon by the following SPECIFIC OBJECTIVES: _x000D_ 1. Obtaining NEW LUMINISCENT NPS SIMPLES and hybrids for your use as NANOTERMOMETRICAS CELULARES._x000D_ 2. Obtaining NEW NANOCALENTATORS SIMPLES AND HIBRIDS FOR CELULAR TERAPY._x000D_ 3. Development OF NEW OPTO-FLUIDICAS INTEGRATED PLATAFORMS for your use in BIOSESSING ESCENaries_x000D_ 4. Operational DEVELOPMENT AND CHARACTERISATION OF A NEW CELL PINCE PINCE PROTOTY That Minimises Toxicity and STRES._x000D_ 5. DEVELOPMENT AND OPERATIONAL CHARACTERISATION OF A NEW PROTOTYPE FLOW CITOMETRO THAT, WITH THE NEW NANOMARKERS AND MINIATURISED OPTO-FLUIDICAS PLATFORMS, REPRESENT A CLEAR ADVANCE FOR CURRENT LIQUID BIOPSY TECHNIQUES. (English)
 
Property / summary: THIS PROJECT AIMS TO OBTAIN NEW NANOMARKERS SIMPLE OR HYBRID TO BE USED AS CELLULAR PROBES AND ALSO DEVELOP NEW INTEGRATED PLATFORMS OPTO-FLUIDICAS FOR APPLICATIONS IN BIOMEDICINE. _x000D_ for WHAT REFERRED TO NPS MATERIALS TO NNOmetric SCALE INCORPORANED doping that generate DIFFERENT FISIUS RESPRESSIONS (OPTICS, thermals and MAGNETICAS). FOR MATRICES, THE STUDY OF HIGH FONON (OXIDE) AND LOW FONON (FLUORIDE) MATERIALS WILL BE ADDRESSED IN ORDER TO SELECT PREFERENTIAL CHANNELS FOR RADIATIVE OR NON-RADIATIVE DESEXCITATION. MORE CONCRETELY, THE MATERIALS TO BE STUDIED ARE: OXIDES; AS DOUBLE MONOCLINIC WOLFRAMATES (KREW), VANADATES (XVO4) AND PHOSPHATES (XPO4); FLUORIDES, NAXF4 (X = Y3+, LA3+, GD3+,) AND MF2 (M = MG2+, CA2+, SR2+) AND HYBRID SYSTEMS WITH STRUCTURES OF THE CORE-SHELL-PLASMON TYPE, INCORPORATING METAL AND/OR GRAPHENE NPS. In addition, these MATERIALS will incorporate RAR EARTY IONES (RE3+ = YB3+, ER3+, TM3+, HO3+, ND3+...) AND/O TRANSICATION METALS (TM = CR3+, MN2+, BI3+, BI3+) RESPONSIBLE OF LUMINISCENT CHARACTERISTICS OF SONDAS._x000D_ IN FROM MICROFLUIDICAS PLATAFORMS WITH OPTIC QUESTION, we will also explore DIFERENT DESIGNS in relation to microfluidic circles as to the INTEGRATED OPTIC CONFIGURATION. IN THE CASE OF MICROFLUIDIC CIRCUITS, MICROFLUIDICAS GEOMETRIES WILL BE EXPLORED TO ALLOW AND IMPROVE MOTOR, OPERABILITY AND FLOW CONTROL, WHILE ALLOWING AN OPTIMAL INTERACTION WITH WAVEGUIDES, EITHER LONGITUDINALLY OR TRANSVERSELY. IN PARTICULAR, THE DEVELOPMENT OF A HYDRODYNAMIC CLAMP THAT ALLOWS THE TRAPPING OF CELLS AND MACROMOLECULES IN FLUID MEDIUM FOR OBSERVATION OR MANIPULATION AND A NEW FLOW CITOMETRO THAT ALLOWS MULTIPARAMETRIC ANALYSIS. IN TERMS OF MATERIALS, DIFFERENT SUBSTRATES WILL BE EXPLORED, WHICH PROVIDE DIFFERENTIAL CHARACTERISTICS AND WHOSE ADVANTAGES SHOULD BE EVALUATED THROUGHOUT THE PROJECT. Specifically, the use of PDMS as a means of perpetuating the initial development of microfluidic designs, which will be transferred to Silica and WOLFRAMATOs._x000D_ The GENERAL OBJECTIVE OF THIS PROJECT IS BY THE DEVELOPMENT OF NEW OPTO-fluidic DISPOSITIVES by means of INTEGRATION IN miniaturised nanoscience, PHOTONICAL AND MICROPHLUIDIC PLATAFORMS, allow to improve the technology of studium and cell analysis, so that it may be possible to carry out diagnostic treatment and to propose treatment of less than INVASIV IN BIOMEDICINE._x000D_ THIS OBJECTIVE general to be agreed upon by the following SPECIFIC OBJECTIVES: _x000D_ 1. Obtaining NEW LUMINISCENT NPS SIMPLES and hybrids for your use as NANOTERMOMETRICAS CELULARES._x000D_ 2. Obtaining NEW NANOCALENTATORS SIMPLES AND HIBRIDS FOR CELULAR TERAPY._x000D_ 3. Development OF NEW OPTO-FLUIDICAS INTEGRATED PLATAFORMS for your use in BIOSESSING ESCENaries_x000D_ 4. Operational DEVELOPMENT AND CHARACTERISATION OF A NEW CELL PINCE PINCE PROTOTY That Minimises Toxicity and STRES._x000D_ 5. DEVELOPMENT AND OPERATIONAL CHARACTERISATION OF A NEW PROTOTYPE FLOW CITOMETRO THAT, WITH THE NEW NANOMARKERS AND MINIATURISED OPTO-FLUIDICAS PLATFORMS, REPRESENT A CLEAR ADVANCE FOR CURRENT LIQUID BIOPSY TECHNIQUES. (English) / rank
Normal rank
 
Property / summary: THIS PROJECT AIMS TO OBTAIN NEW NANOMARKERS SIMPLE OR HYBRID TO BE USED AS CELLULAR PROBES AND ALSO DEVELOP NEW INTEGRATED PLATFORMS OPTO-FLUIDICAS FOR APPLICATIONS IN BIOMEDICINE. _x000D_ for WHAT REFERRED TO NPS MATERIALS TO NNOmetric SCALE INCORPORANED doping that generate DIFFERENT FISIUS RESPRESSIONS (OPTICS, thermals and MAGNETICAS). FOR MATRICES, THE STUDY OF HIGH FONON (OXIDE) AND LOW FONON (FLUORIDE) MATERIALS WILL BE ADDRESSED IN ORDER TO SELECT PREFERENTIAL CHANNELS FOR RADIATIVE OR NON-RADIATIVE DESEXCITATION. MORE CONCRETELY, THE MATERIALS TO BE STUDIED ARE: OXIDES; AS DOUBLE MONOCLINIC WOLFRAMATES (KREW), VANADATES (XVO4) AND PHOSPHATES (XPO4); FLUORIDES, NAXF4 (X = Y3+, LA3+, GD3+,) AND MF2 (M = MG2+, CA2+, SR2+) AND HYBRID SYSTEMS WITH STRUCTURES OF THE CORE-SHELL-PLASMON TYPE, INCORPORATING METAL AND/OR GRAPHENE NPS. In addition, these MATERIALS will incorporate RAR EARTY IONES (RE3+ = YB3+, ER3+, TM3+, HO3+, ND3+...) AND/O TRANSICATION METALS (TM = CR3+, MN2+, BI3+, BI3+) RESPONSIBLE OF LUMINISCENT CHARACTERISTICS OF SONDAS._x000D_ IN FROM MICROFLUIDICAS PLATAFORMS WITH OPTIC QUESTION, we will also explore DIFERENT DESIGNS in relation to microfluidic circles as to the INTEGRATED OPTIC CONFIGURATION. IN THE CASE OF MICROFLUIDIC CIRCUITS, MICROFLUIDICAS GEOMETRIES WILL BE EXPLORED TO ALLOW AND IMPROVE MOTOR, OPERABILITY AND FLOW CONTROL, WHILE ALLOWING AN OPTIMAL INTERACTION WITH WAVEGUIDES, EITHER LONGITUDINALLY OR TRANSVERSELY. IN PARTICULAR, THE DEVELOPMENT OF A HYDRODYNAMIC CLAMP THAT ALLOWS THE TRAPPING OF CELLS AND MACROMOLECULES IN FLUID MEDIUM FOR OBSERVATION OR MANIPULATION AND A NEW FLOW CITOMETRO THAT ALLOWS MULTIPARAMETRIC ANALYSIS. IN TERMS OF MATERIALS, DIFFERENT SUBSTRATES WILL BE EXPLORED, WHICH PROVIDE DIFFERENTIAL CHARACTERISTICS AND WHOSE ADVANTAGES SHOULD BE EVALUATED THROUGHOUT THE PROJECT. Specifically, the use of PDMS as a means of perpetuating the initial development of microfluidic designs, which will be transferred to Silica and WOLFRAMATOs._x000D_ The GENERAL OBJECTIVE OF THIS PROJECT IS BY THE DEVELOPMENT OF NEW OPTO-fluidic DISPOSITIVES by means of INTEGRATION IN miniaturised nanoscience, PHOTONICAL AND MICROPHLUIDIC PLATAFORMS, allow to improve the technology of studium and cell analysis, so that it may be possible to carry out diagnostic treatment and to propose treatment of less than INVASIV IN BIOMEDICINE._x000D_ THIS OBJECTIVE general to be agreed upon by the following SPECIFIC OBJECTIVES: _x000D_ 1. Obtaining NEW LUMINISCENT NPS SIMPLES and hybrids for your use as NANOTERMOMETRICAS CELULARES._x000D_ 2. Obtaining NEW NANOCALENTATORS SIMPLES AND HIBRIDS FOR CELULAR TERAPY._x000D_ 3. Development OF NEW OPTO-FLUIDICAS INTEGRATED PLATAFORMS for your use in BIOSESSING ESCENaries_x000D_ 4. Operational DEVELOPMENT AND CHARACTERISATION OF A NEW CELL PINCE PINCE PROTOTY That Minimises Toxicity and STRES._x000D_ 5. DEVELOPMENT AND OPERATIONAL CHARACTERISATION OF A NEW PROTOTYPE FLOW CITOMETRO THAT, WITH THE NEW NANOMARKERS AND MINIATURISED OPTO-FLUIDICAS PLATFORMS, REPRESENT A CLEAR ADVANCE FOR CURRENT LIQUID BIOPSY TECHNIQUES. (English) / qualifier
point in time: 13 October 2021
Timestamp+2021-10-13T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0
 

Revision as of 23:46, 12 October 2021

Project Q3191646 in Spain
Language Label Description Also known as
English
DEVELOPMENT OF NEW MATERIALS AND DEVICES WITH OPTIONAL INTERROGATION FOR BIOSENSOR APPLICATIONS
Project Q3191646 in Spain

    Statements

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    96,800.0 Euro
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    193,600.0 Euro
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    50.0 percent
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    30 December 2016
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    31 December 2020
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    UNIVERSIDAD ROVIRA I VIRGILI
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    41°7'2.06"N, 1°15'16.60"E
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    43148
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    ESTE PROYECTO PRETENDE OBTENER NUEVOS NANOMARCADORES SIMPLES O HIBRIDOS PARA SER UTILIZADOS COMO SONDAS CELULARES Y TAMBIEN DESARROLLAR NUEVAS PLATAFORMAS INTEGRADAS OPTO-FLUIDICAS PARA APLICACIONES EN BIOMEDICINA. _x000D_ POR LO QUE SE REFIERE A LAS NPS SE ESTUDIARAN MATERIALES A ESCALA NANOMETRICA INCORPORANDO DOPANTES QUE GENEREN DIFERENTES RESPUESTAS FISICAS (OPTICAS, TERMICAS Y MAGNETICAS). POR LO QUE SE REFIERE A LAS MATRICES SE ABORDARA EL ESTUDIO DE MATERIALES DE ALTO FONON (OXIDOS) Y BAJO FONON (FLUORUROS) CON EL FIN DE SELECCIONAR CANALES PREFERENCIALES DE DESEXCITACION RADIATIVA O NO-RADIATIVA. DE FORMA MAS CONCRETA, LOS MATERIALES A ESTUDIAR SON: OXIDOS; COMO DOBLES WOLFRAMATOS MONOCLINICOS (KREW), VANADATOS (XVO4) Y FOSFATOS (XPO4),; FLUORUROS, NAXF4 (X = Y3+, LA3+, GD3+, ¿) Y MF2 (M = MG2+, CA2+, SR2+, ¿) Y SISTEMAS HIBRIDOS CON ESTRUCTURAS DEL TIPO ¿CORE-SHELL-PLASMON¿, INCORPORANDO NPS METALICAS Y/O DE GRAFENO. ADICIONALMENTE, ESTOS MATERIALES INCORPORARAN TAMBIEN IONES DE TIERRAS RARAS (RE3+ = YB3+, ER3+, TM3+, HO3+, ND3+...) Y/O METALES DE TRANSICION (TM = CR3+, MN2+, BI3+, ¿) RESPONSABLES DE LAS CARACTERISTICAS LUMINISCENTES DE LAS SONDAS._x000D_ EN CUANTO A LAS PLATAFORMAS MICROFLUIDICAS CON INTERROGACION OPTICA, SE EXPLORARAN TAMBIEN DIFERENTES DISEÑOS TANTO EN RELACION A LOS CIRCUITOS MICROFLUIDICOS COMO A LA CONFIGURACION DE OPTICA INTEGRADA. EN EL CASO DE LOS CIRCUITOS MICROFLUIDICOS, SE EXPLORARAN GEOMETRIAS MICROFLUIDICAS QUE PERMITAN Y MEJOREN LA MOTRICIDAD, LA OPERATIVIDAD Y EL CONTROL DE FLUJOS, Y A LA VEZ PERMITAN UNA OPTIMA INTERACCION CON LAS GUIAS DE ONDA, YA SEA DE MANERA LONGITUDINAL O TRANSVERSAL. SE CONTEMPLA EN PARTICULAR, EL DESARROLLO DE UNA PINZA HIDRODINAMICA QUE PERMITA EL ATRAPAMIENTO DE CELULAS Y MACROMOLECULAS EN MEDIO FLUIDO PARA SU OBSERVACION O MANIPULACION Y UN NUEVO CITOMETRO DE FLUJO QUE PERMITA REALIZAR ANALISIS MULTIPARAMETRICOS. EN CUANTO A LOS MATERIALES, SE EXPLORARAN DIFERENTES SUSTRATOS, QUE APORTAN CARACTERISTICAS DIFERENCIALES Y CUYAS VENTAJAS DEBERAN SER EVALUADAS A LO LARGO DEL PROYECTO. CONCRETAMENTE SE PREVE LA UTILIZACION DE PDMS COMO MATERIAL QUE PERMITE LA OPTIMIZACION INICIAL DE DISEÑOS MICROFLUIDICOS, QUE POSTERIORMENTE SERAN TRANSFERIDOS A OXINITRUROS DE SILICIO Y WOLFRAMATOS._x000D_ EL OBJETIVO GENERAL DE ESTE PROYECTO ES POR TANTO EL DESARROLLO DE NUEVOS DISPOSITIVOS OPTO-FLUIDICOS QUE, MEDIANTE LA INTEGRACION EN PLATAFORMAS MINIATURIZADAS DE NANOCIENCIA, FOTONICA Y MICROFLUIDICA, PERMITAN MEJORAR LAS TECNICAS DE ESTUDIO Y ANALISIS CELULAR, PARA QUE SEA POSIBLE ADELANTAR EL DIAGNOSTICO Y PROPONER TRATAMIENTOS MENOS INVASIVOS EN BIOMEDICINA._x000D_ ESTE OBJETIVO GENERAL SE DEBE DE CONCRETAR CON LA CONSECUCION DE LOS SIGUIENTES OBJETIVOS ESPECIFICOS: _x000D_ 1. OBTENCION DE NUEVAS NPS LUMINISCENTES SIMPLES E HIBRIDAS PARA SU UTILIZACION COMO SONDAS NANOTERMOMETRICAS CELULARES._x000D_ 2. OBTENCION DE NUEVOS NANOCALENTADORES SIMPLES E HIBRIDOS PARA TERAPIA CELULAR._x000D_ 3. DESARROLLO DE NUEVAS PLATAFORMAS OPTO-FLUIDICAS INTEGRADAS PARA SU UTILIZACION EN ESCENARIOS DE BIOSENSADO_x000D_ 4. DESARROLLO Y CARACTERIZACION OPERATIVA DE UN NUEVO PROTOTIPO DE PINZA DE ATRAPAMIENTO CELULAR QUE MINIMICE LA TOXICIDAD Y EL ESTRES._x000D_ 5. DESARROLLO Y CARACTERIZACION OPERATIVA DE UN NUEVO PROTOTIPO DE CITOMETRO DE FLUJO QUE, CON LOS NUEVOS NANOMARCADORES Y LAS PLATAFORMAS OPTO-FLUIDICAS MINIATURIZADAS, SUPONGAN UN CLARO AVANCE PARA LAS TECNICAS ACTUALES DE BIOPSIA LIQUIDA. (Spanish)
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    Tarragona
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    Identifiers

    MAT2016-75716-C2-1-R
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