Innovating Works

PCI2019-103400

Financiado
REDES SUPRAMOLECULARES DE NANOPARTICULAS COMO MATERIALES NANOPOROSOS AVANZADOS
CURRENT POROUS SYNTHETIC MATERIALS ARE APPROACHED BY STRUCTURES SUCH AS ZEOLITES, MESOPOROUS STRUCTURES, COVALENT ORGANIC FRAMEWORKS AND METAL ORGANIC FRAMEWORKS, IN THIS PROJECT WE PROPOSE A COMPLETELY NEW HYBRID POROUS ARCHITECT... CURRENT POROUS SYNTHETIC MATERIALS ARE APPROACHED BY STRUCTURES SUCH AS ZEOLITES, MESOPOROUS STRUCTURES, COVALENT ORGANIC FRAMEWORKS AND METAL ORGANIC FRAMEWORKS, IN THIS PROJECT WE PROPOSE A COMPLETELY NEW HYBRID POROUS ARCHITECTURE THAT WILL EMPLOY THE HIERARCHICAL SELF-ASSEMBLY OF SUPRAMOLECULAR POLYMERS (STPS) TOGETHER WITH GOLD NANOPARTICLES AS CROSS-LINKING POINTS (AUNPS), THE ACTUATION IN ONE HAND ON THE NANOPARTICLE SIZE, SHAPE, AND ITS LIGAND FUNCTIONALIZATION AND IN THE OTHER HAND ON THE SUPRAMOLECULAR POLYMERS CHEMICAL STRUCTURES WILL PROVIDE CONTROL OVER THE PORE SIZE AND THE CHEMICAL PROPERTIES OF THE NEW HYBRID ARCHITECTURES, PLASMONIC NANOPARTICLES WILL BE EQUIPPED WITH CHEMICAL SEEDS AND STOPPERS (LIGANDS) THAT WILL MODULATE GROWTH OF THE SUPRAMOLECULAR POLYMERS ON THE NANOPARTICLE SURFACE, CONTROLLING THE NUMBER OF LINKING POINTS AND THE DIRECTIONALITY OF THE SUPRAMOLECULAR NANOTUBES CONNECTING EACH PARTICLE, FURTHERMORE, THE STPS WILL ALSO ALLOW FURTHER TUNING OF THE PORE SIZE, CHIRALITY, AND CHEMICAL FUNCTIONALIZATION, THE RESULTING NANOPARTICLE SUPRAMOLECULAR FRAMEWORKS (NSFS) WILL GO BEYOND THE STATE OF THE ART IN POROUS MATERIALS AS THEY REPRESENT A NEW ARCHITECTURE THAT WILL COMBINE THE ADVANTAGES OF SUPRAMOLECULAR POLYMERS (BIOCOMPATIBILITY, STIMULI RESPONSIVENESS, CHIRALITY) TOGETHER WITH THE OPTICAL PROPERTIES OF AUNPS, THE RESULTING HYBRID FRAMEWORKS WILL CONSTITUTE A NEW CLASS OF POROUS MATERIALS WITH POTENTIAL APPLICATIONS AS ORTHOGONAL DOUBLE CHANNEL POROUS MATERIALS, NANO-CONTAINERS, DRUG DELIVERY VEHICLES, NEW PROBES AND SUBSTRATES FOR CELL REGENERATION,WE HAVE ASSEMBLED A NEARLY IDEAL TEAM WITH A HIGH-LEVEL OF INTERNATIONAL EXCELLENCE AND THE PERFECT BACKGROUND TO ACCOMPLISH THESE HIGH-RISK OBJECTIVES, THE MONTENEGRO GROUP (USC, SPAIN) WILL COORDINATE THE RESEARCH AND IMPLEMENT HIS EXPERTISE IN THE SELF-ASSEMBLY OF PEPTIDE NANOTUBES WITH INORGANIC NANOPARTICLES, THE AIDA LAB (TU, JAPAN) IS ONE OF THE TOP WORLD-LEADERS IN CONTROLLED SUPRAMOLECULAR POLYMERIZATION AND SMART STIMULI RESPONSIVE MATERIALS, THE PARAK GROUP (HU, GERMANY) WILL BRING HIS TOP-LEVEL EXPERIENCE IN THE PRECISE FUNCTIONALIZATION OF AUNPS FOR BIOMEDICAL APPLICATIONS, PROF, ORENTAS (FERENTIS, LITHUANIA), IS AN EXPERT IN MATHEMATICAL MODELS FOR PREDICTING SELF-SORTING AND SUPRAMOLECULAR POLYMERS, THE SPIN-OFF COMPANY FERENTIS, WILL PROVIDE THE BEST MOLECULAR ENVIRONMENT TO TEST THE MATERIALS IN PHYSIOLOGICALLY RELEVANT CONDITIONS, THIS TEAM WILL INTEGRATE THE DIFFERENT SINGULAR EXCELLENT SKILLS REQUIRED FROM THE SUCCESS OF THIS AMBITIOUS CHALLENGE, POLIMEROS SUPRAMOLECULARES\NANOPARTICULAS\AUTO-ENSAMBLAJE\NANOTUBOS\BIOTECNOLOGIA ver más
01/01/2019
USC
100K€
Perfil tecnológico estimado

Línea de financiación: concedida

El organismo AGENCIA ESTATAL DE INVESTIGACIÓN notifico la concesión del proyecto el día 2019-01-01
Presupuesto El presupuesto total del proyecto asciende a 100K€
Líder del proyecto
UNIVERSIDAD DE SANTIAGO DE COMPOSTELA No se ha especificado una descripción o un objeto social para esta compañía.
Total investigadores 234