OBTAINING BIOFILMS WITH BARRIER PROPERTIES FROM RENEWABLE RESOURCES (Q3142299): Difference between revisions
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(Created claim: summary (P836): THERE IS A GROWING SOCIAL AWARENESS IN RELATION TO CLIMATIC CHANGE AND TO ENHANCE EFFICIENCY IN THE USE OF NATURAL RESOURCES. INDEED, ONE OF OUR SOCIETY’S CONCERNS LIES IN THE PROBLEM ASSOCIATED WITH OIL-DERIVED MATERIALS DUE TO THEIR HARMFUL ENVIRONMENTAL IMPACT AND UNSUSTAINABLE LIFE CYCLE. IN THIS SCENARIO THE NEED ARISES TO LOOK FOR ALTERNATIVES TO THESE MATERIALS THAT ARE MORE SUSTAINABLE, BIODEGRADABLE AND ENVIRONMENTALLY FRIENDLY. THE USE...) |
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OBTAINING BIOFILMS WITH BARRIER PROPERTIES FROM RENEWABLE RESOURCES | |||
Revision as of 13:38, 12 October 2021
Project Q3142299 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | OBTAINING BIOFILMS WITH BARRIER PROPERTIES FROM RENEWABLE RESOURCES |
Project Q3142299 in Spain |
Statements
72,600.0 Euro
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145,200.0 Euro
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50.0 percent
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30 December 2016
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29 June 2021
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UNIVERSIDAD POLITECNICA DE CATALUÑA
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41°33'46.66"N, 2°0'36.18"E
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08279
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EXISTE UNA CRECIENTE CONCIENCIACION SOCIAL EN RELACION CON EL CAMBIO CLIMATICO Y CON POTENCIAR LA EFICIENCIA EN LA UTILIZACION DE LOS RECURSOS NATURALES. DE HECHO, UNA DE LAS PREOCUPACIONES DE NUESTRA SOCIEDAD RADICA EN LA PROBLEMATICA ASOCIADA CON LOS MATERIALES DERIVADOS DEL PETROLEO DEBIDO A SU PERJUDICIAL IMPACTO MEDIOAMBIENTAL Y SU INSOSTENIBLE CICLO DE VIDA. EN ESTE ESCENARIO SURGE LA NECESIDAD DE BUSCAR ALTERNATIVAS A ESTOS MATERIALES QUE SEAN MAS SOSTENIBLES, BIODEGRADABLES Y RESPETUOSAS CON EL MEDIO AMBIENTE. LA UTILIZACION DE POLIMEROS PROCEDENTES DE LA BIOMASA PARECE UNA MUY BUENA OPCION PARA PRODUCIR MATERIALES MULTIFUNCIONALES, QUE PUEDEN SER DESARROLLADOS MEDIANTE LA UTILIZACION DE TECNICAS DE GRAN POTENCIAL SOCIAL E INDUSTRIAL COMO SON LA NANOTECNOLOGIA Y LA BIOTECNOLOGIA. ASI PUES, LA FINALIDAD DE LA PRESENTE PROPUESTA ES CONSTRUIR MATERIALES AVANZADOS, QUE APORTEN BUENAS PROPIEDADES BARRERA Y MECANICAS, A PARTIR DE BIOFILMS OBTENIDOS DIRECTAMENTE DE POLIMEROS NATURALES, CON LA AYUDA DE LA NANOTECNOLOGIA Y CONTEMPLANDO LA POSIBILIDAD DE MEJORA FUNCIONAL MEDIANTE MODIFICACION QUIMICA Y/O BIOTECNOLOGICA._x000D_ LOS ASPECTOS MAS RELEVANTES SON: A) UTILIZACION DE RECURSOS NATURALES COMO MATERIAS PRIMAS PARA LA OBTENCION DE BIOFILMS, EN SUSTITUCION DE RECURSOS CON DIFICULTADES DE DISPONIBILIDAD; B) DISEÑO DE MATERIALES MULTIFUNCIONALES CON PROPIEDADES AVANZADAS MEDIANTE LA AYUDA DE LA NANOTECNOLOGIA; C) UTILIZACION DE TECNOLOGIAS TRANSVERSALES (COMO LA BIOTECNOLOGIA) PARA LA OBTENCION DE PRODUCTOS NOVEDOSOS Y CON ALTO VALOR AÑADIDO; D) OBTENCION DE NUEVOS MATERIALES RESPETUOSOS CON EL MEDIO AMBIENTE Y SOSTENIBLES, Y QUE APORTEN BUENAS PROPIEDADES BARRERA Y MECANICAS; E) DESARROLLO DE NUEVOS FILMS BIODEGRADABLES A PARTIR DE FUENTES RENOVABLES; F) CREACION DE MATERIALES TRANSVERSALES PARA LA APLICACION EN DIFERENTES SECTORES INDUSTRIALES._x000D_ LOS OBJETIVOS PLANTEADOS SON: 1. DEFINIR Y EVALUAR EL EFECTO DE LA COMPOSICION, LA MORFOLOGIA Y PRETRATAMIENTOS FUNCIONALES MECANICOS, QUIMICOS Y ENZIMATICOS EN LAS FIBRAS CELULOSICAS, QUE PERMITAN MEJORAR LA EFICIENCIA Y LAS PROPIEDADES EN LA OBTENCION DE BIOFILMS BARRERA; 2. DESARROLLAR PREPARACIONES DE DERIVADOS DE CELULOSA (DVC), DEL TIPO CARBOXIMETICELULOSA Y ACETATO DE CELULOSA, APTOS PARA LA CONSTRUCCION DE BIOFILMS; 3. OPTIMIZAR LA OBTENCION DE SUSPENSIONES DE NANOCELULOSA CRISTALINA (NCC) PARA UN MAYOR RENDIMIENTO DEL PROCESO; 4. ANALIZAR DIFERENTES ESTRATEGIAS DE CONSTRUCCION DE BIOFILMS PARA OBTENER UN MATERIAL AVANZADO CON LAS MAYORES PRESTACIONES FUNCIONALES; 5. EVALUAR EL RECUBRIMIENTO SUPERFICIAL DE SOPORTES CELULOSICOS MEDIANTE BIOFILMS DE DVC Y/O NCC PARA LA OBTENCION DE MATERIALES AVANZADOS MULTICAPA; 6. ANALIZAR LA BIODEGRADABILIDAD E IMPRIMIBILIDAD DE LOS BIOFILMS BARRERA._x000D_ LOS RESULTADOS ESPERADOS SON: A) OBTENCION DE BIOFILMS A PARTIR DE DVC Y DE NCC, MEDIANTE ESTRATEGIAS DE COMBINACION Y/O ENSAMBLAJE; B) OBTENCION DE PRODUCTOS LAMINARES MULTICAPA A PARTIR DE RECUBRIMIENTOS DE BIOFILMS; C) OBTENCION DE MATERIALES MULTIFUNCIONALES CON PROPIEDADES BARRERA Y BIODEGRADABLES; D) ELUCIDACION DEL EFECTO DE LA COMPOSICION, LA MORFOLOGIA Y LOS PRETRATAMIENTOS FUNCIONALES AVANZADOS DE LAS MATERIAS PRIMAS CELULOSICAS, EN LA CONSTRUCCION DE BIOFILMS. CABE DESTACAR QUE ESTOS AVANCES O RESULTADOS DE CARACTER TRANSVERSAL PUEDEN REPERCUTIR MUY POSITIVAMENTE EN DIFERENTES SECTORES INDUSTRIALES, TANTO NACIONALES COMO INTERNACIONALES, DESTINADOS A PRODUCTOS DE ALTO VALOR AÑADIDO. (Spanish)
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THERE IS A GROWING SOCIAL AWARENESS IN RELATION TO CLIMATIC CHANGE AND TO ENHANCE EFFICIENCY IN THE USE OF NATURAL RESOURCES. INDEED, ONE OF OUR SOCIETY’S CONCERNS LIES IN THE PROBLEM ASSOCIATED WITH OIL-DERIVED MATERIALS DUE TO THEIR HARMFUL ENVIRONMENTAL IMPACT AND UNSUSTAINABLE LIFE CYCLE. IN THIS SCENARIO THE NEED ARISES TO LOOK FOR ALTERNATIVES TO THESE MATERIALS THAT ARE MORE SUSTAINABLE, BIODEGRADABLE AND ENVIRONMENTALLY FRIENDLY. THE USE OF POLYMERS FROM BIOMASS SEEMS A VERY GOOD OPTION TO PRODUCE MULTIFUNCTIONAL MATERIALS, WHICH CAN BE DEVELOPED THROUGH THE USE OF TECHNIQUES OF GREAT SOCIAL AND INDUSTRIAL POTENTIAL SUCH AS NANOTECHNOLOGY AND BIOTECHNOLOGY. Thus, the FINALITY of the present proposal is to construct advanced MATERIALS, which provide good BARRERA AND MECANICAL PROPERTY PROPERTY PROPERTY, TO PART OF DIRECTLY OBTENED biofilms of NATURAL polymers, with the aid of NANOTECNOLOGY and CONTEMPLATION OF THE POSIBILITY OF THE FUNCIONAL MEDITIONAL MODIFICATION QUIMICA Y/O BIOTECHNOLOGICAL._x000D_ THE MORE RELEVANT ASPECTS ARE: USE OF NATURAL RESOURCES AS RAW MATERIALS FOR OBTAINING BIOFILMS, REPLACING RESOURCES WITH DIFFICULTIES OF AVAILABILITY; DESIGN OF MULTIFUNCTIONAL MATERIALS WITH ADVANCED PROPERTIES THROUGH THE HELP OF NANOTECHNOLOGY; C) USE OF CROSS-SECTIONAL TECHNOLOGIES (SUCH AS BIOTECHNOLOGY) FOR THE PRODUCTION OF NOVEL PRODUCTS WITH HIGH ADDED VALUE; D) OBTAINING NEW ENVIRONMENTALLY FRIENDLY AND SUSTAINABLE MATERIALS THAT PROVIDE GOOD BARRIER AND MECHANISTIC PROPERTIES; DEVELOPMENT OF NEW BIODEGRADABLE FILMS FROM RENEWABLE SOURCES; Creation of TRANSVERSAL MATERIALS FOR APPLICATION IN DIFFERENT INDUSTRIAL SECTORS._x000D_ THE OBJECTIVES PLANTED ARE: 1. DEFINE AND EVALUATE THE EFFECT OF COMPOSITION, MORPHOLOGY AND MECHANICAL, CHEMICAL AND ENZYME FUNCTIONAL PRETREATMENTS ON CELLULOSIC FIBRES, WHICH IMPROVE EFFICIENCY AND PROPERTIES IN OBTAINING BARRIER BIOFILMS; 2. DEVELOP PREPARATIONS OF CELLULOSE DERIVATIVES (DVC), CARBOXIMETICELULOSE TYPE AND CELLULOSE ACETATE, SUITABLE FOR THE CONSTRUCTION OF BIOFILMS; 3. OPTIMISE THE COLLECTION OF CRYSTALLINE NANOCELLULOSE (NCC) SUSPENSIONS FOR HIGHER PROCESS PERFORMANCE; 4. ANALYSE DIFFERENT BIOFILM CONSTRUCTION STRATEGIES TO OBTAIN ADVANCED MATERIAL WITH THE HIGHEST FUNCTIONAL PERFORMANCE; 5. EVALUATE THE SURFACE COATING OF CELLULOSIC SUPPORTS USING DVC AND/OR NCC BIOFILMS FOR THE PRODUCTION OF ADVANCED MULTI-LAYER MATERIALS; 6. Analyse BIODEGRADABILITY AND printability of BARRERA biofilms._x000D_ Expected RESULTS ARE: OBTAINING BIOFILMS FROM DVC AND NCC THROUGH COMBINATION AND/OR ASSEMBLY STRATEGIES; OBTAINING MULTILAYER LAMINAR PRODUCTS FROM BIOFILM COATINGS; OBTAINING MULTIFUNCTIONAL MATERIALS WITH BARRIER AND BIODEGRADABLE PROPERTIES; D) ELECTION OF THE EFFECT OF COMPOSITION, MORPHOLOGY AND ADVANCED FUNCTIONAL PRETREATMENTS OF CELLULOSIC RAW MATERIALS, ON THE CONSTRUCTION OF BIOFILMS. IT SHOULD BE NOTED THAT THESE CROSS-CUTTING DEVELOPMENTS OR RESULTS CAN HAVE A VERY POSITIVE IMPACT ON DIFFERENT INDUSTRIAL SECTORS, BOTH NATIONAL AND INTERNATIONAL, AIMED AT HIGH ADDED VALUE PRODUCTS. (English)
12 October 2021
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Terrassa
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Identifiers
CTQ2016-77936-R
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