FUNCTIONAL MOLECULAR NANOSTRUCTURES FOR OPTOELECTRONIC DEVICES: GUIDING REACTIONS ON SURFACES (Q3134869): Difference between revisions
Jump to navigation
Jump to search
(Created claim: summary (P836): THE UNION OF ORGANIC MOLECULES BY COVALENT BONDS IN SOLIDS TENDS TO GENERATE AMORPHOUS AND/OR DISORDERED MATERIALS. FROM THE NEED TO PRODUCE CONTROLLED STRUCTURES A NEW SCIENTIFIC STRATEGY HAS EMERGED COMBINING ORGANIC SYNTHESIS AND SURFACE PHYSICS, THE. REFERRED TO AS ‘SURFACE SYNTHESIS’. WITH IT YOU GET STRUCTURES SORTED IN 0D, 1D, 2D OR 3D THANKS TO THE SURFACE GUIDE THE REACTION. ALTHOUGH CARBON-BASED MOLECULAR NANOSTRUCTURES (CMNS) IMPLICIT...) |
(Changed label, description and/or aliases in en: translated_label) |
||
| label / en | label / en | ||
FUNCTIONAL MOLECULAR NANOSTRUCTURES FOR OPTOELECTRONIC DEVICES: GUIDING REACTIONS ON SURFACES | |||
Revision as of 12:26, 12 October 2021
Project Q3134869 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | FUNCTIONAL MOLECULAR NANOSTRUCTURES FOR OPTOELECTRONIC DEVICES: GUIDING REACTIONS ON SURFACES |
Project Q3134869 in Spain |
Statements
75,625.0 Euro
0 references
151,250.0 Euro
0 references
50.0 percent
0 references
30 December 2016
0 references
31 December 2020
0 references
AGENCIA CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS
0 references
43°19'20.71"N, 1°59'2.00"W
0 references
20069
0 references
LA UNION DE MOLECULAS ORGANICAS MEDIANTE ENLACES COVALENTES EN SOLIDOS TIENDE A GENERAR MATERIALES AMORFOS Y/O DESORDENADOS. DE LA NECESIDAD DE PRODUCIR ESTRUCTURAS CONTROLADAS HA SURGIDO UNA NUEVA ESTRATEGIA CIENTIFICA QUE COMBINAN LA SINTESIS ORGANICA Y LA FISICA DE SUPERFICIES, LA. DENOMINADA "SINTESIS EN SUPERFICIE'. CON ELLA SE CONSIGUEN ESTRUCTURAS ORDENADAS EN 0D, 1D, 2D O 3D GRACIAS A QUE LA SUPERFICIE GUIA LA REACCION. A PESAR DE QUE LAS NANOESTRUCTURAS MOLECULARES BASADAS EN CARBONO (CMNS) LLEVAN IMPLICITA LA EXPECTATIVA DE GENERAR DISPOSITIVOS FUNCIONALES, LA TECNOLOGIA PARA CONSEGUIRLO ESTA AUN DESARROLLANDOSE. LAS APLICACIONES TECNOLOGICAS REQUIEREN UN CONTROL, ESCALADO Y RENTABILIDAD ANTES DE PODER IMPLEMENTARSE EN DISPOSITIVOS FABRICADOS DE FORMA INDUSTRIAL. ESTA ES LA RAZON DE NUESTRO PROYECTO FUNMOLDEV._x000D_ LA INVESTIGACION MULTIDISCIPLINAR PROPUESTA ESTA BASADA EN LA COLABORACION PRECEDENTE SUPERHYBRID, CUYO OBJETIVO ERA EL DESARROLLO DE NUEVAS RUTAS PARA EL DISEÑO, CREACION, CONTROL, FUNCIONALIDAD Y ESTUDIO DE CMNS COVALENTES EN SUPERFICIES METALICAS. APOYADA EN LOS CONOCIMIENTOS ADQUIRIDOS CON SUPERHYBRID, FUNMOLDEV COMBINA ASPECTOS DE LA SINTESIS ORGANICA, LA FISICA DE SUPERFICIES (CRECIMIENTO EPITAXIAL, ESTRUCTURA ELECTRONICA) Y QUIMICA (REACCIONES EN SUPERFICIES), INGENIERIA (METODOS DE TRANSFERENCIA, INSTRUMENTACION, FABRICACION DE DISPOSITIVOS), OPTICA, TRANSPORTE MESOSCOPICO Y SIMULACIONES ATOMITICAS PARA LA CONSECUCION DE UN GRAN OBJETIVO: EL DESARROLLO DE UN DISPOSITIVO OPTOELECTRONICO SINGULAR._x000D_ PARA LOGRARLO, PRETENDEMOS EXPLORAR RUTAS ALTERNATIVAS DE SINTESIS Y TRANSFERENCIA DE HIBRIDOS CMNS A SUPERFICIES AISLANTES Y POLARIZABLES, ALGO QUE CONTINUAN DESAFIANDO TENAZMENTE A LA COMUNIDAD CIENTIFICA. POR OTRA PARTE, EXAMINAREMOS LA VIABILIDAD DE TRANSFERIR ESTRUCTURAS CONCRETAS DE CMN GENERADAS SOBRE METALES A SOPORTES POLARIZABLES, TALES COMO FERROELECTRICOS, CON EL OBJETIVO DE CREAR DISPOSITIVOS CON NUEVAS FUNCIONALIDADES. LA SUPERACION DE TODOS LOS OBSTACULOS QUE NOS PLANTEAMOS PARA LA CONSECUCION CON EXITO DEL PROYECTO SOLO ES POSIBLE GRACIAS UN ESFUERZO COLECTIVO, COMO EL PROPUESTO EN ESTE CONSORCIO, QUE COMBINA GRUPOS COMPLEMENTARIOS CIENTIFICAMENTE HABLANDO Y QUE ADEMAS POSEEN UN PERSONAL AMPLIAMENTE CAPACITADO PARA AFRONTARLO. _x000D_ DENTRO DE ESTA COLABORACION, EL GRUPO EXPERIMENTAL DEL CENTRO DE FISICA DE MATERIALES (CFM-E) PRINCIPALMENTE SE ENCARGARA DE BUSCAR NUEVAS RUTAS DE SINTESIS EN SUPERFICIES PARA OBTENER LOS CMNS HIBRIDOS DESEABLE. ASI, EN SUPERFICIES METALICAS VAMOS A EXPLORAR NUEVAS REACCIONES QUIMICAS O REACCIONES GUIADAS POR LA ESTRUCTURA O COMPOSICION DE LAS SUPERFICIES CON EL OBJETIVO DE CONTROLAR LA MORFOLOGIA DE LOS CMNS. POR OTRO LADO, EN SUPERFICIES AISLANTES, EL OBJETIVO PRINCIPAL SERA ESTABLECES NUEVOS PROTOCOLOS QUE PERMITAN LA FORMACION DE CMNS EN SOPORTES POLARIZABLES, SOBRE TODO UTILIZANDO MATERIALES DE ALTA CONSTANTE DIELECTRICA. (Spanish)
0 references
THE UNION OF ORGANIC MOLECULES BY COVALENT BONDS IN SOLIDS TENDS TO GENERATE AMORPHOUS AND/OR DISORDERED MATERIALS. FROM THE NEED TO PRODUCE CONTROLLED STRUCTURES A NEW SCIENTIFIC STRATEGY HAS EMERGED COMBINING ORGANIC SYNTHESIS AND SURFACE PHYSICS, THE. REFERRED TO AS ‘SURFACE SYNTHESIS’. WITH IT YOU GET STRUCTURES SORTED IN 0D, 1D, 2D OR 3D THANKS TO THE SURFACE GUIDE THE REACTION. ALTHOUGH CARBON-BASED MOLECULAR NANOSTRUCTURES (CMNS) IMPLICITLY CARRY THE EXPECTATION OF GENERATING FUNCTIONAL DEVICES, THE TECHNOLOGY TO ACHIEVE THIS IS STILL DEVELOPING. TECHNOLOGICAL APPLICATIONS REQUIRE CONTROL, SCALING AND PROFITABILITY BEFORE THEY CAN BE IMPLEMENTED ON INDUSTRIALLY MANUFACTURED DEVICES. This IS THE RAZON OF OUR PROJECT FUNMOLDEV._x000D_ MULTIDISCIPLINAL RESEARCH PROPOSAL PROPOSES This is based on the PRECEDENT COLABORATION superhybrid, WHY OBJECTIVE WITH THE DEVELOPMENT OF NEW RUTS FOR THE DESIGN, CREATION, CONTROL, FUNCIONALITY AND STUDY OF COvalent CMNS IN METALAL SUPERFICIES. SUPPORTED BY THE KNOWLEDGE ACQUIRED WITH SUPERHYBRID, FUNMOLDEV COMBINES ASPECTS OF ORGANIC SYNTHESIS, SURFACE PHYSICS (EPITAXIAL GROWTH, ELECTRONIC STRUCTURE) AND CHEMISTRY (REACTIONS ON SURFACES), ENGINEERING (TRANSFER METHODS, INSTRUMENTATION, MANUFACTURING OF DEVICES), OPTIC, MESOSCOPIC TRANSPORT AND ATOMITIC SIMULATIONS FOR THE ACHIEVEMENT OF A GREAT OBJECTIVE: The DEVELOPMENT OF A SINGULAR OPTOELECTRONIC DISPOSITION._x000D_ TO LOVE it, we intend to EXPLORE ALTERNATIVE RUTS OF SINTESIS AND TRANSFERENCE OF CMNS HYBRIDS TO SUPERFICIES AISLANTS AND polarizable, something that continues tenaciously disassembling the scientific community. ON THE OTHER HAND, WE WILL EXAMINE THE FEASIBILITY OF TRANSFERRING CONCRETE STRUCTURES FROM CMN GENERATED ON METALS TO POLARIZABLE SUPPORTS, SUCH AS FERROELECTRICS, WITH THE AIM OF CREATING DEVICES WITH NEW FUNCTIONALITIES. THE OVERCOMING OF ALL THE OBSTACLES THAT WE POSE TO THE SUCCESS OF THE PROJECT IS ONLY POSSIBLE THANKS TO A COLLECTIVE EFFORT, SUCH AS THAT PROPOSED IN THIS CONSORTIUM, WHICH COMBINES COMPLEMENTARY GROUPS SCIENTIFICALLY SPEAKING AND WHO ALSO HAVE A WELL-TRAINED STAFF TO FACE IT. _x000D_ within THIS COLABORATION, THE EXPERIMENTAL GROUP OF THE MATERIAL PHISIC CENTRE (CFM-E) will be primarily responsible for scouring new SINTESIS RUTS IN SUPERFICIES TO OBJECTIVE HYBRID CMNS DESEABLE. THUS, ON METAL SURFACES WE WILL EXPLORE NEW CHEMICAL REACTIONS OR REACTIONS GUIDED BY THE STRUCTURE OR COMPOSITION OF THE SURFACES IN ORDER TO CONTROL THE MORPHOLOGY OF THE CMNS. ON THE OTHER HAND, ON INSULATING SURFACES, THE MAIN OBJECTIVE WILL BE TO ESTABLISH NEW PROTOCOLS THAT ALLOW THE FORMATION OF CMNS IN POLARIZABLE SUPPORTS, ESPECIALLY USING MATERIALS OF HIGH DIELECTRIC CONSTANT. (English)
12 October 2021
0 references
Donostia/San Sebastián
0 references
Identifiers
MAT2016-78293-C6-5-R
0 references