PEROVSKITE-BASED LEDS AND SOLAR CELLS (Q3134860): Difference between revisions
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LEDS À BASE DE | LEDS E CÉLULAS SOLARES À BASE DE PEROVSKITE | ||||||||||||||
Property / budget | |||||||||||||||
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Property / budget: 181,500.0 Euro / rank | |||||||||||||||
Property / co-financing rate | |||||||||||||||
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Property / co-financing rate: 50.0 percent / rank | |||||||||||||||
Property / EU contribution | |||||||||||||||
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Property / EU contribution: 90,750.0 Euro / rank | |||||||||||||||
Property / end time | |||||||||||||||
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Property / end time: 31 December 2020 / rank | |||||||||||||||
Property / summary: TO ENSURE A SAFE, EFFICIENT AND CLEAN ENERGY (¿ENERGIA SEGURA, EFICIENTE Y LIMPIA¿), THE USE OF FOSSIL FUELS NEEDS TO BE SUBSTANTIALLY REDUCED, SINCE THESE LEADS TO THE EMISSION OF GREENHOUSE GASSES AND COME FROM UNSECURE REGIONS IN THE WORLD. THIS PROJECTS AIMS TO CONTRIBUTE TO THE REDUCTION OF FOSSIL FUELS CONSUMPTION BY DEVELOPING EFFICIENT AND LOW COST PHOTOVOLTAIC DEVICES THAT GENERATE RENEWABLE ENERGY, AND BY DEVELOPING EFFICIENT LIGHT SOURCES THAT DECREASES THE ELECTRICITY CONSUMPTION. _x000D_ THE PROJECT AIMS TO DEVELOP PHOTOVOLTAIC AND LIGHT-EMITTING DEVICES IN WHICH THE ABSORBER AND EMITTERS ARE BASED ON INORGANIC OR HYBRID ORGANIC-INORGANIC PEROVSKITE MATERIALS. THESE PEROVSKITE MATERIAL HAVE TUNABLE BANDGAPS THAT ALLOW FOR THE GENERATION OF LOW AND WIDE BANDGAP ABSORBERS AND ALSO EFFICIENT LIGHT EMITTERS COVERING THE WHOLE VISIBLE AND NEAR INFRARED WAVELENGTH RANGE. ADDITIONALLY, THEY ARE OF LOW COST AND CAN BE APPLIED AS THIN FILMS USING ECONOMIC PROCESSES COMPATIBLE WITH LARGE AREA AND VOLUME PRODUCTION. _x000D_ CURRENT BEST PEROVSKITE SOLAR CELLS HAVE REACHED AN EFFICIENCY OF 22 % ON SMALL AREA DEVICES BASED ON ONLY ONE PEROVSKITE ABSORBER THAT ARE PREPARED WITH A METHOD THAT IS NOT COMPATIBLE WITH LARGE SCALE PRODUCTION. USING TWO DIFFERENT PEROVSKITE ABSORBERS IN A TANDEM CONFIGURATION SOLAR CELLS WITH EFFICIENCIES ABOVE 30 % CAN BE ACHIEVED, WHICH WOULD REVOLUTIONIZE THE PHOTOVOLTAIC MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDS USE ONLY ORGANIC MATERIALS (OLEDS) AND THEIR BEST EFFICIENCIES ARE LIMITED TO 60 LM/W MAINLY DUE TO THE LACK OF VERY EFFICIENT BLUE DIODES. BY USING HYBRID MATERIALS WITH DIRECT ELECTRON AND HOLE RECOMBINATION WE CAN REACH HIGHER EFFICIENCIES WHICH WILL ENABLE THE GENERATION OF HIGH EFFICIENCY LOW COST LIGHT SOURCES FOR DISPLAY AND LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ THE MAIN OBJECTIVES ARE THE DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE AND WHITE PEROVSKITE LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP HAS RECENTLY SHOWN SINGLE JUNCTION PEROVSKITE SOLAR CELLS PREPARED USING PROCESSES COMPATIBLE WITH LARGE SCALE PRODUCTION REACHING 20 % AND HAVE ALSO PREPARED THE FIRST PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS WITH A VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT BANDGAP COMBINATION HAVING ¿ONLY¿ AN EFFICIENCY OF 18 %. OUR GROUP HAS RECENTLY ALSO DEMONSTRATED MORE THAN 60 LM/W FOR PEROVSKITE NANOPARTICLE BASED GREEN LEDS. YET TO FURTHER IMPROVE BOTH THESE TYPE OF DEVICES, AND REACH THE GOALS 30 % EFFICIENT SOLAR CELLS AND 100 LM/W EFFICIENCY IN WHITE LIGHT-EMITTING DEVICES, IMPROVED PEROVSKITE ABSORBING AND EMITTING MATERIALS ARE NEEDED AS WELL AS THEIR INTEGRATION IN TANDEM DEVICE ARCHITECTURES THAT USE MORE THAN ONE SEMICONDUCTING MATERIALS. _x000D_ IN PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) AND WIDE (1.8 EV) BANDGAP PEROVSKITE ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS USING THESE LOW AND WIDE BANDGAP ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE PEROVSKITE SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES WITH EFFICIENCIES > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE PEROVSKITE LEDS. (English) / qualifier | |||||||||||||||
readability score: 0.8694183051970271
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Property / summary | Property / summary | ||||||||||||||
Para garantir uma energia segura, eficiente e limpa (ENERGIA SEGURA, EFICIENTE Y LIMPIA), é necessário reduzir substancialmente a utilização de combustíveis fósseis, uma vez que estes conduzem à emissão de gases com efeito de estufa e provêm de regiões inseguras do mundo. Este projecto tem por objectivo contribuir para a redução do consumo de combustíveis fósseis através do desenvolvimento de dispositivos fotovoltaicos eficientes e de baixo custo que gerem energia renovável e do desenvolvimento de fontes luminosas eficientes que diminuam o consumo de electricidade. _x000D_ O projecto tem por objectivo o desenvolvimento de dispositivos fotovoltáicos e de iluminação em que o absorvente e os emissores se baseiem em materiais perovskíticos orgânicos-inorgânicos inorgânicos ou híbridos. Estes materiais perovskíticos têm tampões móveis que permitem a geração de absorvedores de baixa e larga largura e também emissores de luz eficazes que cobrem toda a amplitude de ondulação visível e quase infringida. Além disso, são de baixo custo e podem ser aplicados como pequenos filtros que utilizam processos económicos compatíveis com grandes superfícies e produção de volume. _x000D_ AS MELHORES CÉLULAS SOLARES PEROVSKITAS EM CURSO ALCANÇARAM UMA EFICIÊNCIA DE 22 % NOS DISPOSITIVOS PARA PEQUENAS ZONAS COM BASE APENAS EM UM ABSÓRBER PEROVSKITE PREPARADO COM UM MÉTODO NÃO COMPATÍVEL COM A GRANDE PRODUÇÃO À ESCALA. Pode obter-se a utilização de dois absorventes perovskitas diferentes num mercado fotovoltáico com concentrações superiores a 30 %, o que permitiria revolucionar o mercado fotovoltáico._x000D_ Atualmente, os melhores LEDs brancos utilizam apenas materiais orgânicos (OLED) e as suas melhores eficiências estão limitadas a 60 lm/devem-se principalmente à falta de diodos azuis muito eficazes. BY USING HYBRID MATERIALS WITH DIRECT ELECTRON AND HOLE RECOMBINATION WE CAN REACH HIGHER EFFICIENCIES WHICH WILL ENABLE THE GENERATION OF HIGH EFFICIENCY LOW COST LIGHT SOURCES FOR DISPLAY AND LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ THE MAIN OBJECTIVES ARE THE DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE AND WHITE PEROVSKITE LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP HAS RECENTLY SHOWN SINGLE JUNCTION PEROVSKITE SOLAR CELLS PREPARED USING PROCESSES COMPATIBLE WITH LARGE SCALE PRODUCTION REACHING 20 % AND HAVE ALSO PREPARED THE FIRST PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS WITH A VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT BANDGAP COMBINATION HAVING ¿ONLY¿ AN EFFICIENCY OF 18 %. O NOSSO GRUPO JÁ DEMONSTROU MAIS DE 60 LM/W PARA LEDS VERDES À BASE DE PEROVSKITE NANOPARTICLE. YET TO FURTHER IMPROVE BOTH THESE TYPE OF DEVICES, AND REACH THE GOALS 30 % EFFICIENT SOLAR CELLS AND 100 LM/W EFFICIENCY IN WHITE LIGHT-EMITTING DEVICES, IMPROVED PEROVSKITE ABSORBING AND EMITTING MATERIALS ARE NEEDED AS WELL AS THEIR INTEGRATION IN TANDEM DEVICE ARCHITECTURES THAT USE MORE THAN ONE SEMICONDUCTING MATERIALS. _x000D_ IN PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) AND WIDE (1.8 EV) BANDGAP PEROVSKITE ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS USING THESE LOW AND WIDE BANDGAP ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE PEROVSKITE SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES WITH EFFICIENCIES > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE PEROVSKITE LEDS. (Portuguese) | |||||||||||||||
Property / postal code | |||||||||||||||
Property / postal code: 46190 / rank | |||||||||||||||
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Property / location (string): Paterna / rank | |||||||||||||||
Property / coordinate location | |||||||||||||||
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Property / coordinate location: 39°30'14.11"N, 0°26'31.56"W / rank | |||||||||||||||
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Property / contained in NUTS: Province of Valencia / rank | |||||||||||||||
Property / end time | |||||||||||||||
30 September 2021
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Property / end time: 30 September 2021 / rank | |||||||||||||||
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Property / location (string) | |||||||||||||||
Paterna | |||||||||||||||
Property / location (string): Paterna / rank | |||||||||||||||
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Property / postal code | |||||||||||||||
46980 | |||||||||||||||
Property / postal code: 46980 / rank | |||||||||||||||
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Property / contained in NUTS: Province of Valencia / rank | |||||||||||||||
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Property / contained in NUTS: Province of Valencia / qualifier | |||||||||||||||
Property / contained in Local Administrative Unit | |||||||||||||||
Property / contained in Local Administrative Unit: Paterna / rank | |||||||||||||||
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Property / contained in Local Administrative Unit: Paterna / qualifier | |||||||||||||||
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39°31'49.15"N, 0°26'46.54"W
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Property / coordinate location: 39°31'49.15"N, 0°26'46.54"W / rank | |||||||||||||||
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Property / coordinate location: 39°31'49.15"N, 0°26'46.54"W / qualifier | |||||||||||||||
Property / budget | |||||||||||||||
181,500.0 Euro
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Property / budget: 181,500.0 Euro / rank | |||||||||||||||
Preferred rank | |||||||||||||||
Property / EU contribution | |||||||||||||||
98,826.75 Euro
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Property / EU contribution: 98,826.75 Euro / rank | |||||||||||||||
Preferred rank | |||||||||||||||
Property / co-financing rate | |||||||||||||||
54.45 percent
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Property / co-financing rate: 54.45 percent / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / date of last update | |||||||||||||||
20 December 2023
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Property / date of last update: 20 December 2023 / rank | |||||||||||||||
Normal rank |
Latest revision as of 09:32, 10 October 2024
Project Q3134860 in Spain
Language | Label | Description | Also known as |
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English | PEROVSKITE-BASED LEDS AND SOLAR CELLS |
Project Q3134860 in Spain |
Statements
98,826.75 Euro
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181,500.0 Euro
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54.45 percent
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1 January 2018
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30 September 2021
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UNIVERSIDAD DE VALENCIA
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46980
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PARA GARANTIZAR UNA ENERGIA SEGURA, EFICIENTE Y LIMPIA, ES NECESARIO REDUCIR SUSTANCIALMENTE EL USO DE COMBUSTIBLES FOSILES, YA QUE ESTOS CONDUCEN A LA EMISION DE GASES DE EFECTO INVERNADERO Y PROVIENEN DE REGIONES NO SEGURAS EN EL MUNDO. ESTE PROYECTO ASPIRA A CONTRIBUIR A LA REDUCCION DEL CONSUMO DE DICHOS COMBUSTIBLES MEDIANTE EL DESARROLLO DE DISPOSITIVOS FOTOVOLTAICOS EFICIENTES DE BAJO COSTE QUE GENEREN ENERGIA RENOVABLE, Y TAMBIEN MEDIANTE EL DESARROLLO DE FUENTES DE ILUMINACION EFICIENTES QUE DISMINUYAN EL CONSUMO DE ENERGIA._x000D_ EL PROYECTO PRETENDE DESARROLLAR DISPOSITIVOS FOTOVOLTAICOS Y EMISORES DE LUZ USANDO MATERIALES ABSORBANTES Y EMISORES BASADOS EN PEROVSKITAS INORGANICAS O HIBRIDAS ORGANICAS-INORGANICAS. PARA ESTOS DISPOSITIVOS, SE UTILIZARAN MATERIALES DE BAJO COSTE QUE PUEDEN DEPOSITARSE EN CAPA DELGADA EN GRANDES SUPERFICIES UTILIZANDO PROCESOS ECONOMICOS COMPATIBLES CON LA PRODUCCION A GRAN ESCALA. _x000D_ LAS MEJORES CELULAS SOLARES ACTUALES HAN ALCANZADO EFICIENCIAS DE UN 22%, AUNQUE ESTO SE HA CONSEGUIDO EN DISPOSITIVOS DE AREA PEQUEÑA Y BASADOS EN UNA CAPA DE PEROVSKITA PREPARADA CON METODOS DE DEPOSICION INCOMPATIBLES CON LA PRODUCCION A GRAN ESCALA. CON EL USO DE DOS CAPAS DIFERENTES DE PEROVSKITA EN CELULAS SOLARES DE CONFIGURACION TANDEM, SE PUEDEN ALCANZAR EFICIENCIAS SUPERIORES AL 30%, LO CUAL REVOLUCIONARIA EL MERCADO DE LA TECNOLOGIA FOTOVOLTAICA._x000D_ ACTUALMENTE, LOS MEJORES LEDS BLANCOS DE PELICULA FINA UTILIZAN SOLO MATERIALES ORGANICOS (OLEDS) Y SUS MEJORES EFICIENCIAS ESTAN LIMITADAS A 60 LM/W, PRINCIPALMENTE DEBIDO A LA FALTA DE DIODOS AZULES MUY EFICIENTES. MEDIANTE EL USO DE MATERIALES HIBRIDOS CON RECOMBINACION DIRECTA ENTRE ELECTRONES Y HUECOS, PODEMOS ALCANZAR MAYORES EFICIENCIAS QUE PERMITIRAN LA GENERACION DE FUENTES DE LUZ DE BAJO COSTO Y ALTA EFICIENCIA PARA SISTEMAS DE VISUALIZACION E ILUMINACION, LO QUE REDUCIRA CONSIDERABLEMENTE EL CONSUMO DE ENERGIA. _x000D_ _x000D_ LOS PRINCIPALES OBJETIVOS DE ESTE PROYECTO SON EL DESARROLLO DE:_x000D_ 1) CELULAS SOLARES TANDEM PEROVSKITA-PEROVKITA EFICIENTES._x000D_ 2) DISPOSITIVOS EMISORES DE LUZ EN CAPA DELGADA AZULES Y BLANCOS._x000D_ _x000D_ NUESTRO GRUPO HA DEMOSTRADO RECIENTEMENTE LA POSIBILIDAD DE PREPARAR CELULAS SOLARES DE PEROVSKITA DE UNION SIMPLE MEDIANTE EL USO DE PROCESOS COMPATIBLES CON LA PRODUCCION A GRAN ESCALA, ALCANZANDO 20% DE EFICIENCIA. ADEMAS, HEMOS PREPARADO LA PRIMERA CELULA SOLAR TANDEM PEROVSKITA-PEROVSKITA CON UN VOC POR ENCIMA DE 2 VOLTIOS, CUYA EFICIANCIA ESTA LIMITADA A UN 18% DEBIDO A UNA COMBINACION TODAVIA NO OPTIMA DE BANDAS PROHIBIDAS. NUESTRO GRUPO TAMBIEN HA DEMOSTRADO EFICIENCIAS DE MAS DE 60 LM/W PARA LEDS VERDES BASADOS EN NANOPARTICULAS DE PEROVSKITA. SIN EMBARGO, PARA MEJORAR AUN MAS ESTOS TIPOS DE DISPOSITIVOS Y ALCANZAR EFICIENCIAS DE 30% EN CELULAS SOLARES Y DE 100 LM/W EN DISPOSITIVOS EMISORES DE LUZ BLANCA, SE REQUIEREN ABSORBEDORES Y EMISORES MEJORADOS DE PEROVSKITA, ASI COMO ARQUITECTURAS DE DISPOSITIVOS EN TANDEM QUE UTILIZAN MAS DE UN MATERIAL SEMICONDUCTOR._x000D_ _x000D_ EN PARTICULAR, SE VA A DESARROLLAR:_x000D_ - PEROVSKITAS CON BANDA PROHIBIDA BAJA (1.2 EV) Y ANCHA (1.8 EV)._x000D_ - CELULAS SOLARES DE UNION SIMPLE EFICIENTES BASADAS EN ESTAS PEROVKITAS._x000D_ - LOS MODELOS FISICOS DETRAS DE LAS CELULAS SOLARES DE PEROVSKITA._x000D_ - DISPOSITIVOS TANDEM CON EFICIENCIAS > 30%._x000D_ - PEROVSKITAS LUMINISCENTES EN EL AZUL CON ALTA EFICIENCIA CUANTICA._x000D_ - LEDS AZULES DE PEROVSKITA DE ALTA EFICIENCIA._x000D_ - LEDS BLANCOS DE PEROVSKITA EFICIENTES. (Spanish)
0 references
TO ENSURE A SAFE, EFFICIENT AND CLEAN ENERGY (¿ENERGIA SEGURA, EFICIENTE Y LIMPIA¿), THE USE OF FOSSIL FUELS NEEDS TO BE SUBSTANTIALLY REDUCED, SINCE THESE LEADS TO THE EMISSION OF GREENHOUSE GASSES AND COME FROM UNSECURE REGIONS IN THE WORLD. THIS PROJECTS AIMS TO CONTRIBUTE TO THE REDUCTION OF FOSSIL FUELS CONSUMPTION BY DEVELOPING EFFICIENT AND LOW COST PHOTOVOLTAIC DEVICES THAT GENERATE RENEWABLE ENERGY, AND BY DEVELOPING EFFICIENT LIGHT SOURCES THAT DECREASES THE ELECTRICITY CONSUMPTION. _x000D_ THE PROJECT AIMS TO DEVELOP PHOTOVOLTAIC AND LIGHT-EMITTING DEVICES IN WHICH THE ABSORBER AND EMITTERS ARE BASED ON INORGANIC OR HYBRID ORGANIC-INORGANIC PEROVSKITE MATERIALS. THESE PEROVSKITE MATERIAL HAVE TUNABLE BANDGAPS THAT ALLOW FOR THE GENERATION OF LOW AND WIDE BANDGAP ABSORBERS AND ALSO EFFICIENT LIGHT EMITTERS COVERING THE WHOLE VISIBLE AND NEAR INFRARED WAVELENGTH RANGE. ADDITIONALLY, THEY ARE OF LOW COST AND CAN BE APPLIED AS THIN FILMS USING ECONOMIC PROCESSES COMPATIBLE WITH LARGE AREA AND VOLUME PRODUCTION. _x000D_ CURRENT BEST PEROVSKITE SOLAR CELLS HAVE REACHED AN EFFICIENCY OF 22 % ON SMALL AREA DEVICES BASED ON ONLY ONE PEROVSKITE ABSORBER THAT ARE PREPARED WITH A METHOD THAT IS NOT COMPATIBLE WITH LARGE SCALE PRODUCTION. USING TWO DIFFERENT PEROVSKITE ABSORBERS IN A TANDEM CONFIGURATION SOLAR CELLS WITH EFFICIENCIES ABOVE 30 % CAN BE ACHIEVED, WHICH WOULD REVOLUTIONIZE THE PHOTOVOLTAIC MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDS USE ONLY ORGANIC MATERIALS (OLEDS) AND THEIR BEST EFFICIENCIES ARE LIMITED TO 60 LM/W MAINLY DUE TO THE LACK OF VERY EFFICIENT BLUE DIODES. BY USING HYBRID MATERIALS WITH DIRECT ELECTRON AND HOLE RECOMBINATION WE CAN REACH HIGHER EFFICIENCIES WHICH WILL ENABLE THE GENERATION OF HIGH EFFICIENCY LOW COST LIGHT SOURCES FOR DISPLAY AND LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ THE MAIN OBJECTIVES ARE THE DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE AND WHITE PEROVSKITE LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP HAS RECENTLY SHOWN SINGLE JUNCTION PEROVSKITE SOLAR CELLS PREPARED USING PROCESSES COMPATIBLE WITH LARGE SCALE PRODUCTION REACHING 20 % AND HAVE ALSO PREPARED THE FIRST PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS WITH A VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT BANDGAP COMBINATION HAVING ¿ONLY¿ AN EFFICIENCY OF 18 %. OUR GROUP HAS RECENTLY ALSO DEMONSTRATED MORE THAN 60 LM/W FOR PEROVSKITE NANOPARTICLE BASED GREEN LEDS. YET TO FURTHER IMPROVE BOTH THESE TYPE OF DEVICES, AND REACH THE GOALS 30 % EFFICIENT SOLAR CELLS AND 100 LM/W EFFICIENCY IN WHITE LIGHT-EMITTING DEVICES, IMPROVED PEROVSKITE ABSORBING AND EMITTING MATERIALS ARE NEEDED AS WELL AS THEIR INTEGRATION IN TANDEM DEVICE ARCHITECTURES THAT USE MORE THAN ONE SEMICONDUCTING MATERIALS. _x000D_ IN PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) AND WIDE (1.8 EV) BANDGAP PEROVSKITE ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS USING THESE LOW AND WIDE BANDGAP ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE PEROVSKITE SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES WITH EFFICIENCIES > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE PEROVSKITE LEDS. (English)
0.8694183051970271
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POUR GARANTIR UNE ÉNERGIE SÛRE, EFFICACE ET PROPRE, IL EST NÉCESSAIRE DE RÉDUIRE CONSIDÉRABLEMENT L’UTILISATION DES COMBUSTIBLES FOSSILES, CAR ILS ENTRAÎNENT DES ÉMISSIONS DE GAZ À EFFET DE SERRE ET PROVIENNENT DE RÉGIONS DANGEREUSES DU MONDE. Ce PROJET conduira à la réorientation de la consommation des DICHES COMBUSTIBLES POUR LE DÉVELOPPEMENT DES DÉVELOPPEMENTS EFFICIENTS PHOTOVOLTAIQUES DÉVELOPPEMENT DE L’ÉNERGIE ÉNERGIE, ET MEASURE LE DÉVELOPPEMENT DE L’ÉVALUATION FUENTS CONSOMMATION DE L’ÉNERGIE ÉNERGIE._x000D_ le PROJET POUR LE DEVELOPPEMENT PHOTOVOLTAIQUE PHOTOVOLTAIQUE dispositifs ET EMISOTORS LUMÉRIQUES utilisés en absorbant MATERIALS ET Emisores BASED dans les pérovskites inorganiques ou les hybrides inorganiques ORGANIQUES. POUR CES APPAREILS, ON UTILISERA DES MATÉRIAUX PEU COÛTEUX QUI PEUVENT ÊTRE DÉPOSÉS EN COUCHE MINCE SUR DE GRANDES SURFACES EN UTILISANT DES PROCÉDÉS ÉCONOMIQUES COMPATIBLES AVEC LA PRODUCTION À GRANDE ÉCHELLE. _x000D_ les MEILLEURS SOLAIRES ACTUELLES ont des EFICIENCES DE 22 %, mais celles-ci ont été consacrées en petits domaines et BASED DANS UN CAP DE Perovskita Préparé avec des méthodes de dépôt sans compromis AVEC une grande PRODUCTION ESCALE. Avec l’utilisation de deux bouchons différents de perovskita dans SOLAR CONFIGURATION CELLS TANDEM, 30 % peuvent être atteints au-delà des EFICIENCES, QUINQUE LE MARKET DE PHOTOVOLTAICA TECHNOLOGY._x000D_ Actuellement, les meilleures LEDs BLANCE de FINA PELICULA UTILISATION SEULEMENT ORGANIQUE MATERIALS (OLEDS) ET LEURES MEILLEURS EFICIENCES sont limites à 60 LM/W, principalement en raison de la FALTA OF VERY effcient Bules. EN UTILISANT DES MATÉRIAUX HYBRIDES AVEC RECOMBINAISON DIRECTE ENTRE LES ÉLECTRONS ET LES CREUX, NOUS POUVONS ATTEINDRE UNE PLUS GRANDE EFFICACITÉ QUI PERMETTRA LA PRODUCTION DE SOURCES LUMINEUSES À FAIBLE COÛT ET À HAUT RENDEMENT POUR LES SYSTÈMES DE VISUALISATION ET D’ÉCLAIRAGE, CE QUI RÉDUIRA CONSIDÉRABLEMENT LA CONSOMMATION D’ÉNERGIE. _x000D_ _x000D_ les principales OBJECTIFS DE CE PROJECT sont LE DÉVELOPPEMENT DE:_x000D_ 1) SOLARES TANDEM perovskita-PEROVKITA celulas EFICIENTS._x000D_ 2) ÉPÔT DE LUMIÈRE ET DE BLANCIE DELGATE._x000D_ _x000D_ notre GROUPE a résisté à la POSSIBILITÉ DE PREPARING SOLAR Perovskita CELLS D’UNION SIMPLE POUR L’UTILISATION DES PROCESSUS COMPATIBLES AVEC la grande PRODUCTION ESCALE, CHANGEMENT 20 % DE L’EFICIENCE. EN OUTRE, NOUS AVONS PRÉPARÉ LE PREMIER TANDEM DE CELLULES SOLAIRES PEROVSKITA-PEROVSKITA AVEC UN COV SUPÉRIEUR À 2 VOLTS, DONT L’EFFICACITÉ EST LIMITÉE À 18 % EN RAISON D’UNE COMBINAISON NON OPTIMALE DE BANDES INTERDITES. NOTRE GROUPE A ÉGALEMENT DÉMONTRÉ DES GAINS D’EFFICACITÉ DE PLUS DE 60 LM/W POUR LES LED VERTES BASÉES SUR PEROVSKITA NANOPARTICULAE. Toutefois, afin d’améliorer encore plus de ces types d’appareils et d’atteindre 30 % en SOLARY CELLS et 100 LM/W en lumière blanche EMISOTORS, ABSORBETORS et Améliorés Empellers de Perovskita, ainsi que ARCHITECTURES DE DISPOSITIONS EN TANDEM qui utilisent plus d’un SEMICONDUCTOR MATERIAL._x000D_ _x000D_ EN PARTICULIER, au DÉVELOPPEMENT:_x000D_ — Perovskitas AVEC LOW PROHIBITED BAND (1.2 EV) ET Ancha (1.8 EV)._x000D_ — VILLES SOLAIRES DE L’UNION SIMPLE EN THÈS PEROVKITAS._x000D_ — MODELS PHYSIQUES POUR LES CELULS SOLAIRES DE PEROVSKITA._x000D_ — PROPOSITIONS TANDEM AVEC LES EFICIENCES > 30 %._x000D_ — Perovskites Luminiscents DANS LE bleu AVEC HAUTE EFICIENCE CUANTICAL._x000D_ — LEDs bleues perovskite à haute efficacité._x000D_ — LED blanches perovskita efficentes. (French)
2 December 2021
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UM SICHERE, EFFIZIENTE UND SAUBERE ENERGIE ZU GEWÄHRLEISTEN, IST ES NOTWENDIG, DEN EINSATZ FOSSILER BRENNSTOFFE ERHEBLICH ZU REDUZIEREN, DA SIE ZUR EMISSION VON TREIBHAUSGASEN FÜHREN UND AUS UNSICHEREN REGIONEN DER WELT STAMMEN. Dieses PROJEKT wird zur Neuausrichtung der Vollendung von COMBUSTIBLE DICHS FÜR DIE ENTWICKLUNG der EFFICIENT PHOTOVOLTAIC DEVELOPMENTEN DEVELOPMENTE ENERGIE, UND DIE ENTWICKLUNG der EFFICIENT Ilumination FUENTEN DEVELOPING ENERGY CONSUMPTION._x000D_ das PROJEKT für die Entwicklung von PHOTOVOLTAIC führen._x000D_ PHOTOVOLTAISCHE Dispositiven UND LICHT EMISOTOREN, die bei anorganischen Perowskiten oder ORGANIC-anorganischen Hybriden verwendet werden, um MATERIALEN UND Emisores zu absorbieren. FÜR DIESE GERÄTE WERDEN KOSTENGÜNSTIGE MATERIALIEN EINGESETZT, DIE IN EINER DÜNNEN SCHICHT AUF GROSSEN FLÄCHEN UNTER VERWENDUNG WIRTSCHAFTLICHER VERFAHREN ABGELAGERT WERDEN KÖNNEN, DIE MIT DER GROSSPRODUKTION KOMPATIBEL SIND. _x000D_ die besten ACTUAL SOLAR CELLS HAVE EFICIENCES OF A 22 %, aber diese wurden in kleinen AREA PROVISIONEN geweiht und in einer Kappe von Perovskita vorbereitet mit kompromisslosen Depositionsmethoden mit großer ESCAL PRODUCTION vorbereitet. Mit der Verwendung von zwei verschiedenen Kappen von Perovskita in SOLAR CONFIGURATION CELLS TANDEM können 30 % über EFICIENCES erreicht werden, WHICH THE MARKET OF PHOTOVOLTAICA TECHNOLOGY._x000D_ Derzeit sind die BEST BLANCE LEDs von FINA PELICULA USE ONLY ORGANIC MATERIALS (OLEDs) und THEIR BEST EFICIENCES auf 60 LM/W begrenzt, vor allem aufgrund der FALTA OF VERY effcient Bules. DURCH DEN EINSATZ VON HYBRIDMATERIALIEN MIT DIREKTER REKOMBINATION ZWISCHEN ELEKTRONEN UND HOHLRÄUMEN KÖNNEN WIR GRÖSSERE EFFIZIENZGEWINNE ERZIELEN, DIE DIE ERZEUGUNG VON KOSTENGÜNSTIGEN UND HOCHEFFIZIENTEN LICHTQUELLEN FÜR VISUALISIERUNGS- UND BELEUCHTUNGSSYSTEME ERMÖGLICHEN, WAS DEN ENERGIEVERBRAUCH ERHEBLICH REDUZIEREN WIRD. _x000D_ _x000D_ die MAIN OBJECTIVES DER ENTWICKLUNG:_x000D_ 1) SOLARES TANDEM perovskita-PEROVKITA celulas EFICIENTS._x000D_ 2) LICHT EMPOSITIVES IN BLUE UND BLANZY DELGATE._x000D_ _x000D_ UNSERE GRUPPE EINER GEMEINSCHAFT DER PREPARIERUNG SOLAR Perovskita CELLS DER GEMEINSCHAFTEN FÜR DIE VERWENDUNG DER GEMEINSCHAFTEN IN DER GEMEINSCHAFT, 20 % der EFICIENCE. DARÜBER HINAUS HABEN WIR DIE ERSTE SOLARZELLE TANDEM PEROVSKITA-PEROVSKITA MIT EINER VOC ÜBER 2 VOLT VORBEREITET, DEREN EFFIZIENZ AUFGRUND EINER NICHT OPTIMALEN KOMBINATION VON VERBOTENEN BÄNDERN AUF 18 % BEGRENZT IST. UNSERE GRUPPE HAT AUCH EFFIZIENZGEWINNE VON MEHR ALS 60 LM/W FÜR GRÜNE LEDS AUF BASIS VON PEROVSKITA NANOPARTICULAE DEMONSTRIERT. Um jedoch noch mehr dieser Arten von Geräten zu verbessern und 30 % in SOLARY CELLS und 100 LM/W in Weißlicht EMISOTOREN, ABSORBETOREN und verbesserte Empeller von Perovskita zu erreichen, sowie ARCHITECTURES OF Dispositiven IN TANDEM, die mehr von einem SEMICONDUCTOR MATERIAL verwenden._x000D_ _x000D_ _x000D_ IN PARTICULAR, zu DEVELOP:_x000D_ – Perovskitas MIT LOW PROHIBITED BAND (1,2 EV) UND Ancha (1.8 EV)._x000D_ – SOLAR CELLS DER SIMPLE UNION EFICIENTS, die in diesem PEROVKITAS._x000D_ – PHYSICAL MODELS FÜR PEROVSKITA SOLAR CELULS._x000D_ – PHYSICAL MODELS FÜR PEROVSKITA SOLAR CELULS._x000D_ – TANDEM PROPOSITIVE MIT EFICIENCES > 30 %._x000D_ – Luminiscent perovskites IN THE blue MIT HIGH EFICIENCE CUANTICAL._x000D_ – Hohe Effizienz perovskite blau LEDs._x000D_ – efficent perovskita weiße LEDs. (German)
9 December 2021
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OM VEILIGE, EFFICIËNTE EN SCHONE ENERGIE TE WAARBORGEN, MOET HET GEBRUIK VAN FOSSIELE BRANDSTOFFEN AANZIENLIJK WORDEN VERMINDERD, AANGEZIEN ZIJ LEIDEN TOT DE UITSTOOT VAN BROEIKASGASSEN EN AFKOMSTIG ZIJN UIT ONVEILIGE REGIO’S IN DE WERELD. Dit PROJECT zal leiden tot de heroriëntering van de consumptie van COMBUSTIBLE DICHS VOOR DE ONTWIKKELING VAN EFFICIENTE PHOTOVOLTAISCHE ONTWIKKELINGEN ONTWIKKELING EN DE ONTWIKKELING VAN EFFICIENTIE FUENTS DEVELOPING ENERGIE CONSUMPTION._x000D_ het PROJECT VOOR DEVELOPING PHOTOVOLTAIC PHOTOVOLTAISCHE dispositieven EN LICHT EMISOTORS die worden gebruikt door het absorberen van MATERIALS EN Emisores BASED in anorganische perovskieten of ORGANIC-inorganische hybriden. VOOR DEZE APPARATEN ZULLEN GOEDKOPE MATERIALEN WORDEN GEBRUIKT DIE IN EEN DUNNE LAAG OP GROTE OPPERVLAKKEN KUNNEN WORDEN AFGEZET MET BEHULP VAN ECONOMISCHE PROCESSEN DIE COMPATIBEL ZIJN MET GROOTSCHALIGE PRODUCTIE. _x000D_ de BESTE ACTUAL SOLAR CELLS HAVE EFICIENCES VAN A 22 %, maar deze zijn ingewijd in kleine AREA PROVISIONS EN BASED IN A CAP OF Perovskita Prepared with Uncompromising Deposition Methods with GREAT ESCAL PRODUCTION. Met het gebruik van twee verschillende caps van perovskita in SOLAR CONFIGURATION CELLS TANDEM, 30 % kan worden bereikt boven de EFICIENCES, WAAR DE MARKT VAN PHOTOVOLTAICA TECHNOLOGY._x000D_ Momenteel zijn de BESTE BLANCE LED’s van FINA PELICULA GEBRUIK ALLEEN ORGANISCHE MATERIAAL (OLEDS) EN THEIR BEST EFICIENCES zijn beperkt tot 60 LM/W, voornamelijk als gevolg van de FALTA VAN ZEER Effcient Bules. DOOR GEBRUIK TE MAKEN VAN HYBRIDE MATERIALEN MET DIRECTE RECOMBINATIE TUSSEN ELEKTRONEN EN HOLTEN, KUNNEN WE GROTERE EFFICIËNTIE BEREIKEN DIE HET MOGELIJK MAAKT GOEDKOPE EN EFFICIËNTE LICHTBRONNEN TE GENEREREN VOOR VISUALISATIE- EN VERLICHTINGSSYSTEMEN, WAT HET ENERGIEVERBRUIK AANZIENLIJK ZAL VERMINDEREN. _x000D_ _x000D_ de MAIN OBJECTIVES VAN DEZE PROJECT ZIJN DE ONTWIKKELING VAN:_x000D_ 1) SOLARES TANDEM perovskita-PEROVKITA celulas EFICIENTS._x000D_ 2) LIGHT EMPOSITIVES IN BLUE EN BLANCY DELGATE._x000D_ _x000D_ onze GROUP heeft de POSSIBILITEIT VAN DE GEBRUIK VAN SOLAR Perovskita CELLS van een simpel UNIE voor het gebruik van comparatieve producten met het grote ESCAL PRODUCTIE, met 20 % van de EFICIENCE, geherstructureerd. DAARNAAST HEBBEN WE DE EERSTE ZONNECEL TANDEM PEROVSKITA-PEROVSKITA VOORBEREID MET EEN VOC VAN MEER DAN 2 VOLT, WAARVAN DE EFFICIËNTIE BEPERKT IS TOT 18 % ALS GEVOLG VAN EEN NIET-OPTIMALE COMBINATIE VAN VERBODEN BANDEN. ONZE GROEP HEEFT OOK EFFICIËNTIE VAN MEER DAN 60 LM/W AANGETOOND VOOR GROENE LED’S OP BASIS VAN PEROVSKITA NANOPARTICULAE. Om echter nog meer van deze soorten apparaten te verbeteren en om 30 % in SOLARY CELLS en 100 LM/W in wit licht EMISOTORS te bereiken, zijn ABSORBETOREN en Verbeterde Empellers van Perovskita vereist, evenals ARCHITECTURES VAN dispositieven in TANDEM die meer gebruik maken van een SEMICONDUCTOR MATERIAL._x000D_ _x000D_ IN PARTICULAR, TO DEVELOP:_x000D_ — perovskitas MET LOW PROHIBITED BAND (1.2 EV) EN Ancha (1.8 EV)._x000D_ — VERKOCHT CELLS OF SIMPLE UNION EFICIENTS BASED IN DEZE PEROVKITAS._x000D_ — PHYSICAL MODELS VOOR PEROVSKITA SOLAR CELULS._x000D_ — PHYSICAL MODELS VOOR PEROVSKITA SOLAR CELULS._x000D_ — PHYSICAL MODELS VOOR PEROVSKITA SOLAR CELULS._x000D_ — PHYSICAL MODELS VOOR PEROVSKITA SOLAR CELULS._x000D_ — TANDEM PROPOSITIVES MET EFICIENCES > 30 %._x000D_ — Luminiscent perovskieten IN HET blauw MET HOOG EFICIENCE CUANTICAL._x000D_ — Hoge efficiëntie perovskiet blauwe LEDs._x000D_ — efficent perovskita witte LEDs. (Dutch)
17 December 2021
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PER GARANTIRE UN'ENERGIA SICURA, EFFICIENTE E PULITA, È NECESSARIO RIDURRE IN MODO SOSTANZIALE L'USO DEI COMBUSTIBILI FOSSILI, IN QUANTO COMPORTANO L'EMISSIONE DI GAS A EFFETTO SERRA E PROVENGONO DA REGIONI NON SICURE DEL MONDO. Questo PROGETTO condurrà al riorientamento del consumo di ENERGIA COMBUSTIBLE PER LA SVILUPPO DI SVILUPPO FOTOVOLTAICI EFFICIENTI E MISURA LA SVILUPAZIONE DELL'ENERGIA EFFICIENTE DEI FUORI DI ILLUMINAZIONE EFFICIENTE._x000D_ il PROGETTO PER LA SVILUPAZIONE PHOTOVOLOLTAICA dispositivi FOTOVOLTAICI E EMISOTORI DI LUCE utilizzati per l'assorbimento di MATERIALI ed Emisori BASATI in perovskiti inorganici o ibridi inorganici. PER QUESTI DISPOSITIVI VERRANNO UTILIZZATI MATERIALI A BASSO COSTO CHE POSSONO ESSERE DEPOSITATI IN UNO STRATO SOTTILE SU GRANDI SUPERFICI UTILIZZANDO PROCESSI ECONOMICI COMPATIBILI CON LA PRODUZIONE SU LARGA SCALA. _x000D_ I MIGLIORI CELLI SOLARI ACTUALI Hanno EFICIENCES di un 22 %, eppure queste sono state consacrate in piccole AREA PROVISIONI E BASED IN UN CAP DI PERovskita preparate con metodi di deposizione senza compromessi con grande PRODUZIONE ESCALTA. Con l'uso di due diversi tappi di perovskita nelle CELLE DI CONFIGURAZIONE SOLAR TANDEM, il 30 % può essere raggiunto in eccesso rispetto alle EFICIENCES, CHE IL MERCATO DI TECNOLOGIA FOTOVOLTAICA._x000D_ Attualmente, i migliori LED BLANCE di FINA PELICULA USE SOLO MATERIE ORGANICHE (OLEDS) e le loro migliori EFICIENCES sono limitati a 60 LM/W, principalmente a causa del FALTA OF VERY EFFICIENT Bules. UTILIZZANDO MATERIALI IBRIDI CON RICOMBINAZIONE DIRETTA TRA ELETTRONI E CAVITÀ, POSSIAMO OTTENERE MAGGIORI EFFICIENZE CHE CONSENTIRANNO LA GENERAZIONE DI SORGENTI LUMINOSE A BASSO COSTO E AD ALTA EFFICIENZA PER SISTEMI DI VISUALIZZAZIONE E ILLUMINAZIONE, CHE RIDURRANNO NOTEVOLMENTE IL CONSUMO ENERGETICO. _x000D_ _x000D_ gli obiettivi principali di questo progetto sono lo sviluppo di:_x000D_ 1) SOLARES TANDEM perovskita-PEROVKITA celulas EFICIENTS._x000D_ 2) EMPOSITIVI DI LUCE NELLA DELGATA BLANCITA._x000D_ _x000D_ IL NOSTRO GRUPPO ha desillato la POSSIBILITÀ DI PREPARING SOLAR PERovskita CELLS DI UN'UNIONE SIMPOLA PER L'USO DI PROCESSI COMPATIBILI CON LA GRANDE PRODUZIONE ESCALTA, cambiando il 20 % di EFICIENZA. INOLTRE, ABBIAMO PREPARATO LA PRIMA CELLA SOLARE TANDEM PEROVSKITA-PEROVSKITA CON UN VOC SUPERIORE A 2 VOLT, LA CUI EFFICIENZA È LIMITATA AL 18 % A CAUSA DI UNA COMBINAZIONE NON OTTIMALE DI BANDE VIETATE. IL NOSTRO GRUPPO HA INOLTRE DIMOSTRATO UN'EFFICIENZA DI OLTRE 60 LM/W PER I LED VERDI BASATI SU PEROVSKITA NANOPARTICULAE. Tuttavia, al fine di migliorare ancora di più questi tipi di dispositivi e di raggiungere il 30 % nelle CELLE SOLARIA e 100 LM/W in luce bianca EMISOTORS, ABSORBETORS e Empellers migliorati di Perovskita, così come ARCHITECTURES OF Dispositivi in TANDEM che utilizzano più di un MATERIALE SEMICONDUCTOR._x000D_ _x000D_ IN PARTICULAR, per SVILUPPO:_x000D_ — Perovskitas con la BANDA (1.2 EV) e Ancha (1,8 EV) e Ancha (1,8 EV)._x000D_ — SOLAR CELLS DI SIMPLE UNION EFICIENTS BASED IN QUESTO PEROVKITAS._x000D_ — MODELLI FISICI PEROVSKITA SOLAR CELULS._x000D_ — PROPOSITIVI TANDEM con EFICIENCE > 30 %._x000D_ — Perovskites Luminiscent nel blu CON ALTA EFICIENZA CUANTICAL._x000D_ — LED blu perovskite ad alta efficienza._x000D_ — efficente perovskita bianco LED. (Italian)
16 January 2022
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SELLEKS ET TAGADA OHUTU, TÕHUS JA PUHAS ENERGIA (ENERGIA SEGURA, EFICIENTE Y LIMPIA), TULEB FOSSIILKÜTUSEID MÄRKIMISVÄÄRSELT VÄHENDADA, KUNA NEED PÕHJUSTAVAD KASVUHOONEGAASIDE HEIDET JA TULEVAD MAAILMA EBAKINDLATEST PIIRKONDADEST. NENDE PROJEKTIDE EESMÄRK ON AIDATA KAASA FOSSIILKÜTUSTE TARBIMISE VÄHENDAMISELE, TÖÖTADES VÄLJA TÕHUSAD JA ODAVAD FOTOGALVAANILISED SEADMED, MIS TOODAVAD TAASTUVENERGIAT, NING TÖÖTADES VÄLJA TÕHUSAD VALGUSALLIKAD, MIS VÄHENDAVAD ELEKTRITARBIMIST. _x000D_ PROJECT AIMS TO DEVELOP PHOTOVOLTAIC JA LIGHT-EMITTING DEVICID VÕI HYBRID ORGANIC-INORGANIC perovskiit MATERIALSID VÕI HYBRID-INORGANIC perovskiit MATERIALSID. NENDEL PEROVSKIITMATERJALIDEL ON TIMMITAVAD RIBAVAHED, MIS VÕIMALDAVAD LUUA MADALAID JA LAIASID RIBAVAHENEELDUJAID NING TÕHUSAID VALGUSKIIRGUST, MIS KATAVAD KOGU NÄHTAVA JA INFRAPUNAKIIRGUSE LÄHEDAL ASUVA LAINEPIKKUSE. LISAKS ON NEED ODAVAD JA NEID SAAB KASUTADA ÕHUKESE KILENA, KASUTADES MAJANDUSPROTSESSE, MIS SOBIVAD KOKKU SUURE PINDALA JA TOOTMISMAHUGA. _x000D_ praegune BEST perovskite SOLAR CELLS, mis on valmistatud 22 % SMALL AREA DEVICES BASED ON ainult üks perovskite ABSORBER, et ei ole võimalik, et ei ole võimalik, et see ei ole konkurentsivõimeline SCALE PRODUCTION. Kasutades TWO DIFFERENT perovskite ABSORBERS IN TANDEM CONFIGURATION SOLAR KELLSID KASUTATAVAD 30 % TÄHELEPANU VÕTNUD, VALGE VÕTNUD PHOTOVOLTAIC MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDS ONLY ORGANIC MATERIALSID (OLEDS) JA THEIR BEST kasutegurid on täidetud kuni 60 LM/W VERY EFFICIENT BLUE DIODES LACK. Autor KASUTAMINE HYBRID MATERIALSID VÕI DIREKTIIV ELECTRON JA HILLE rekombinatsioon WE CAN REACH HIGHER efficiations, mida on liiga palju, et tagada HIGH EFFICIENCY LOW COST ALLIKASED DISPLAY JA LIGHTING SÜSTEEMID, mida STRONGLY REDUCE ENERGY CONSUMPTION._x000D_The MAINSID OBJEKTIIVID AREDE:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE JA VALGE perovskite LIGHT-EMITTE DEVICES._x000D_ _x000D_ OUR GROUP HAS RECENTLY SINGING JUNCTION perovskite SOLAR CELLS PREPERITUD KASUTATAVAD KASUTATAVAD KASUTATAVAD TANDEM SOLARID TANDEM SOLAR CELLSID VOC ABOVE 2 VOLTS TON-PERFECT bandgap COMBINATION HAVING 18 % VOC ABOVE 2 VOLTS TÄHELEPANU NON-PERFECT bandgap COMBINATION HAVING OONLYÑAN EFFICIENCY of 18 %. MEIE GRUPP ON HILJUTI NÄIDANUD KA ROHKEM KUI 60 LM/W PEROVSKITE NANOOSAKESTE BAASIL ROHELISTE LEDIDE PUHUL. SELLEKS ET VEELGI PARANDADA MÕLEMAT TÜÜPI SEADMEID JA SAAVUTADA EESMÄRGID 30 % TÕHUSATE PÄIKESEELEMENTIDE JA 100 LM/W TÕHUSUSE SAAVUTAMISEKS VALGETES VALGUST KIIRGAVATES SEADMETES, ON VAJA PAREMAID PEROVSKIITE NEELAVAID JA KIIRGAVAID MATERJALE NING NENDE INTEGREERIMIST TANDEMSEADMETE ARHITEKTUURIDESSE, KUS KASUTATAKSE ROHKEM KUI ÜHTE POOLJUHTMATERJALE. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) JA WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLLSid LOW ja WIDE bandgap ABSORBERS_x000D_ DETERMINE The Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES WITH efektiivsus > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS._x000D_ (Estonian)
4 August 2022
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SIEKIANT UŽTIKRINTI SAUGIĄ, EFEKTYVIĄ IR ŠVARIĄ ENERGIJĄ (ENERGIA SEGURA, EFICIENTE Y LIMPIA), IŠKASTINIO KURO NAUDOJIMAS TURI BŪTI GEROKAI SUMAŽINTAS, NES DĖL TO IŠMETAMA ŠILTNAMIO EFEKTĄ SUKELIANČIŲ DUJŲ IR JIS TIEKIAMAS IŠ NESAUGIŲ PASAULIO REGIONŲ. ŠIAIS PROJEKTAIS SIEKIAMA PRISIDĖTI PRIE IŠKASTINIO KURO VARTOJIMO MAŽINIMO KURIANT EFEKTYVIUS IR NEBRANGIUS FOTOVOLTINIUS ĮRENGINIUS, KURIE GAMINA ATSINAUJINANČIĄ ENERGIJĄ, IR KURIANT VEIKSMINGUS ŠVIESOS ŠALTINIUS, KURIE MAŽINA ELEKTROS ENERGIJOS SUVARTOJIMĄ. _x000D_ PROJEKTŲ DĖL PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTO PROJEKTAS DĖL INORGANINIO ARBA HYBRID ORGANIC-INORGANIC perovskite MATERIALS. ŠIOS PEROVSKITE MEDŽIAGOS TURI DERINAMUS JUOSTINIUS TARPUS, KURIE LEIDŽIA GENERUOTI MAŽAS IR PLAČIAS JUOSTAS AMORTIZATORIUS, TAIP PAT EFEKTYVIUS ŠVIESOS SPINDULIUS, APIMANČIUS VISĄ MATOMĄ IR ARTIMĄ INFRARAUDONŲJŲ SPINDULIŲ BANGŲ ILGIO DIAPAZONĄ. BE TO, JOS YRA NEBRANGIOS IR GALI BŪTI NAUDOJAMOS KAIP PLONOS PLĖVELĖS, NAUDOJANT EKONOMINIUS PROCESUS, SUDERINAMUS SU DIDELIU PLOTU IR GAMYBOS APIMTIMI. _x000D_ Dabartinis Geriausias perovskite SOLAR CELLS KAIP REACHED 22 % ant mažos AREA DEVICIJOS TIK TIK VIENAS perovskite ABSORBER KAIP PREPARED su METHOD, KAD nėra komplikuotas su LARGE SCALE PRODUKTIJA. Naudojant TWO DIFFERENT perovskite ABSORBERS į TANDEM CONFIGURATION SOLAR CELLS SU Efektyvumu 30 % gali būti aktyvuota, KURIO NUSTATYTI FOTOVOLTAINĖS MARKETOS._x000D_ CURRENT BEST THIN FILM WHITE LED NAUDOJIMAS TIK ORGANINIAI MATERIALIAI (OLEDAI) ir jų geriausias efektyvumas ARE LIMITED to 60 LM/W MAINLY DUE į VERYTI EFFICIENT BLUE DIODES. Naudojant HYBRID MATERIALS su DIRECT ELECTRON ir HOLE rekombinacija, kad būtų galima pasiekti aukštą efektyvumo lygį, kurio metu bus pasiektas aukštas EFFICIENCY LOW COST LIGHT SOURCAI, skirtas DISPLAY IR ŠVIESIMO SISTEMOS, KURI TIKTI REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJECTIVES ARE DEVELOP OF:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE IR WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ _x000D_ mūsų GROUP HAS RECENTLY SHOWN SINGLE JUNCTION perovskite SOLAR CELLS PREPARED naudoti PROCESSES SU LARGE SCALE PRODUCTION REACH 20 % IR PATVIRTINTI PIRSTINIAI perovskite-perovskite-perovskite TANDEM SOLAR CELLS su VOC ABOVE 2 VOLTAI DĖL NON-PERFECT juostos tarpo KOMBINACIJA KLAUSIMAS 18 %. MŪSŲ FRAKCIJA NESENIAI TAIP PAT PARODĖ DAUGIAU NEI 60 LM/W UŽ PEROVSKITE NANODALELIŲ PAGRINDU ŽALIA LED. VIS DĖLTO, NORINT TOLIAU TOBULINTI ABU ŠIUOS ĮRENGINIUS IR PASIEKTI TIKSLUS 30 % EFEKTYVIŲ SAULĖS ELEMENTŲ IR 100 LM/W EFEKTYVUMO BALTUOSE ŠVIESĄ SPINDULIUOJANČIUOSE ĮRENGINIUOSE, REIKIA PATOBULINTI PEROVSKITĄ SUGERIANČIAS IR SPINDULIUOJANČIAS MEDŽIAGAS, TAIP PAT JŲ INTEGRAVIMĄ Į TANDEMO ĮRENGINIŲ ARCHITEKTŪRAS, KURIOSE NAUDOJAMA DAUGIAU NEI VIENA PUSLAIDININKINĖ MEDŽIAGA. _x000D_ į PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) IR WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS, Naudojant SAUGUMO IR VALSTYBĖS APSAUGOS_x000D_ DETERMINE THE PHYSICAL of THE Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES su efektyvumu > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LED._x000D_ DEVELOP EFFICIENT WHITE perovskite LED. (Lithuanian)
4 August 2022
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KAKO BI SE OSIGURALA SIGURNA, UČINKOVITA I ČISTA ENERGIJA (ENERGIA SEGURA, EFICIENTE Y LIMPIA), POTREBNO JE ZNATNO SMANJITI UPORABU FOSILNIH GORIVA JER TO DOVODI DO EMISIJA STAKLENIČKIH PLINOVA I DOLAZI IZ NESIGURNIH REGIJA U SVIJETU. CILJ JE TIH PROJEKATA DOPRINIJETI SMANJENJU POTROŠNJE FOSILNIH GORIVA RAZVOJEM UČINKOVITIH I JEFTINIH FOTONAPONSKIH UREĐAJA KOJI PROIZVODE OBNOVLJIVU ENERGIJU TE RAZVOJEM UČINKOVITIH IZVORA SVJETLOSTI KOJIMA SE SMANJUJE POTROŠNJA ELEKTRIČNE ENERGIJE. _x000D_ PROJECT AIMS za DEVELOP FHOTOVOLTAIC I LIGHT-EMITTING DEVICES U KOJIMA SMJEŠTAJ I EMITTERS su se okupili na INORGANIC ili HYBRID ORGANIC-INORGANIC perovskite MATERIALS. TI PEROVSKITNI MATERIJALI IMAJU PODESIVI POJASEVI KOJI OMOGUĆUJU STVARANJE NISKIH I ŠIROKIH APSORBERA BANDGAP-A, KAO I UČINKOVITE SVJETLOSNE EMITERE KOJI POKRIVAJU CIJELI VIDLJIVI I BLIZU RASPONA INFRACRVENIH VALNIH DULJINA. OSIM TOGA, ONI SU NISKE CIJENE I MOGU SE PRIMIJENITI KAO TANKI FILMOVI KORISTEĆI GOSPODARSKE PROCESE KOMPATIBILNE S VELIKOM POVRŠINOM I OBUJMOM PROIZVODNJE. _x000D_ trenutni Najbolji perovskite SOLAR CELLS su došli na EFFICIENCY od 22 % NA MALIM AREA DEVICES BASED NA samo jednom jednom perovskite ABSORBER koji su se priložili sa METHOD da se ne radi o kompatifikaciji s LARGE SCALE PROIZVODOM. Korištenje DWO DIFFERENT perovskite ABSORBERS u TANDEM CONFIGURATION SOLAR CELLS sa učinkovitošću OBAVIJESTI 30 % može biti ACHIEVED, WHICH WOULD REVOLUTIONISE PHOTOVOLTAIC MARKET._x000D_ CURRENT NAJBOLJE NAJBOLJE FILM WHITE LEDS USE SAMO ORGANIČKI MATERIJALI (OLEDS) I najbrži učinkovitosti su na 60 LM/W DINLY DINLY DUE na LACK vrlo EFFICIENT BLUE DIODES. Po USING HYBRID MATERIALS sa DIRECTRON I HOLE rekombinacije Možemo doći do visoke učinkovitosti koje će uljepšati GENERACIJA VELIKI EFFICIENCY LOW COST LIGHT SOURCES za DISPLAY I LIGHTING SYSTEMS da je to STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJEKTIVE je li DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE i WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ Naša grupa NAMJEŠTAJ NAMJEŠTAJ perovskite SOLAR PROMJENE PRODAJTE USING PROCESSs COMPATIBLE S LARGE SCALE PROIZVODNJA ŽELJEZNICA 20 % i također su priložili prvi perovskite perovskite-perovskite TANDEM SOLAR SOLAR se s VOC ABOVE 2 VOLTS YET DUE u NON-PERFECT bandgap COMBINATION HAVING SAMO EFFICIENCIJA od 18 %. NAŠA GRUPA JE NEDAVNO POKAZALA VIŠE OD 60 LM/W ZA PEROVSKITE NANOČESTICE TEMELJENE ZELENE LED DIODE. IPAK, KAKO BI SE DODATNO POBOLJŠALA OBA TIPA UREĐAJA, I POSTIĆI CILJEVE 30 % UČINKOVITE SOLARNE ĆELIJE I 100 LM/W UČINKOVITOST U BIJELIM SVJETLEĆIM UREĐAJIMA, POTREBNO JE POBOLJŠATI PEROVSKITE APSORBIRANJE I EMITIRANJE MATERIJALA, KAO I NJIHOVU INTEGRACIJU U TANDEM UREĐAJA ARHITEKTURE KOJE KORISTE VIŠE OD JEDNOG POLUVODIČKIH MATERIJALA. _x000D_ u PARTICULAR Ćemo Ćemo:_x000D_ DEVELOP LOW (1.2 EV) I WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR PRODAJTE Upotrebljavaju LOW I WIDE bandgap ABSORBERS_x000D_ DETERMINE PHYSICAL OF THE Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES s učinkovitosti > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENCY BLUE PEROSVKITE LEDS. (Croatian)
4 August 2022
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ΓΙΑ ΝΑ ΕΞΑΣΦΑΛΙΣΤΕΊ ΜΙΑ ΑΣΦΑΛΉΣ, ΑΠΟΔΟΤΙΚΉ ΚΑΙ ΚΑΘΑΡΉ ΕΝΈΡΓΕΙΑ (ENERGIA SEGURA, EFICIENTE Y LIMPIA), Η ΧΡΉΣΗ ΟΡΥΚΤΏΝ ΚΑΥΣΊΜΩΝ ΠΡΈΠΕΙ ΝΑ ΜΕΙΩΘΕΊ ΣΗΜΑΝΤΙΚΆ, ΔΕΔΟΜΈΝΟΥ ΌΤΙ ΑΥΤΆ ΟΔΗΓΟΎΝ ΣΤΗΝ ΕΚΠΟΜΠΉ ΑΕΡΊΩΝ ΤΟΥ ΘΕΡΜΟΚΗΠΊΟΥ ΚΑΙ ΠΡΟΈΡΧΟΝΤΑΙ ΑΠΌ ΜΗ ΑΣΦΑΛΕΊΣ ΠΕΡΙΟΧΈΣ ΤΟΥ ΚΌΣΜΟΥ. ΤΑ ΈΡΓΑ ΑΥΤΆ ΈΧΟΥΝ ΩΣ ΣΤΌΧΟ ΝΑ ΣΥΜΒΆΛΟΥΝ ΣΤΗ ΜΕΊΩΣΗ ΤΗΣ ΚΑΤΑΝΆΛΩΣΗΣ ΟΡΥΚΤΏΝ ΚΑΥΣΊΜΩΝ ΑΝΑΠΤΎΣΣΟΝΤΑΣ ΑΠΟΔΟΤΙΚΈΣ ΚΑΙ ΧΑΜΗΛΟΎ ΚΌΣΤΟΥΣ ΦΩΤΟΒΟΛΤΑΪΚΈΣ ΣΥΣΚΕΥΈΣ ΠΟΥ ΠΑΡΆΓΟΥΝ ΑΝΑΝΕΏΣΙΜΗ ΕΝΈΡΓΕΙΑ ΚΑΙ ΑΝΑΠΤΎΣΣΟΝΤΑΣ ΑΠΟΔΟΤΙΚΈΣ ΦΩΤΕΙΝΈΣ ΠΗΓΈΣ ΠΟΥ ΜΕΙΏΝΟΥΝ ΤΗΝ ΚΑΤΑΝΆΛΩΣΗ ΗΛΕΚΤΡΙΚΉΣ ΕΝΈΡΓΕΙΑΣ. _x000D_ το ΕΡΓΟ AIMS για την ΑΝΑΠΤΥΞΗ ΦΩΤΟΒΟΛΤΙΚΩΝ ΚΑΙ ΦΩΤΟΒΟΛΤΙΚΩΝ ΣΥΣΚΕΥΩΝ ΣΤΙΣ ΟΠΟΙΕΣ Ο ΑΒΟΡΒΟΣ και οι ΟΙΜΙΤΣΤΕΣ ΒΑΣΙΖΟΝΤΑΙ ΣΕ ΙΝΟΡΓΑΝΙΚΑ Η ΟΡΓΑΝΙΚΑ ΟΡΓΑΝΙΚΑ-ΙΝΟΡΓΑΝΙΚΑ ΥΛΙΚΑ. ΑΥΤΆ ΤΑ ΥΛΙΚΆ PEROVSKITE ΈΧΟΥΝ ΣΥΝΤΟΝΊΣΙΜΟ BANDGAPS ΠΟΥ ΕΠΙΤΡΈΠΟΥΝ ΤΗΝ ΠΑΡΑΓΩΓΉ ΧΑΜΗΛΏΝ ΚΑΙ ΕΥΡΈΩΝ ΑΠΟΡΡΟΦΗΤΏΝ BANDGAP ΚΑΙ ΕΠΊΣΗΣ ΑΠΟΤΕΛΕΣΜΑΤΙΚΟΎΣ ΠΟΜΠΟΎΣ ΦΩΤΌΣ ΠΟΥ ΚΑΛΎΠΤΟΥΝ ΟΛΌΚΛΗΡΗ ΤΗΝ ΟΡΑΤΉ ΚΑΙ ΚΟΝΤΆ ΣΤΗΝ ΥΠΈΡΥΘΡΗ ΠΕΡΙΟΧΉ ΜΉΚΟΥΣ ΚΎΜΑΤΟΣ. ΕΠΙΠΛΈΟΝ, ΕΊΝΑΙ ΧΑΜΗΛΟΎ ΚΌΣΤΟΥΣ ΚΑΙ ΜΠΟΡΟΎΝ ΝΑ ΕΦΑΡΜΟΣΤΟΎΝ ΩΣ ΛΕΠΤΈΣ ΜΕΜΒΡΆΝΕΣ ΧΡΗΣΙΜΟΠΟΙΏΝΤΑΣ ΟΙΚΟΝΟΜΙΚΈΣ ΔΙΑΔΙΚΑΣΊΕΣ ΣΥΜΒΑΤΈΣ ΜΕ ΤΗΝ ΠΑΡΑΓΩΓΉ ΜΕΓΆΛΩΝ ΕΚΤΆΣΕΩΝ ΚΑΙ ΌΓΚΟΥ. _x000D_ current BEST perovskite SOLAR CELLS ΕΧΟΝΤΑΣ ΕΠΙΚΟΙΝΩΝΙΑ 22 % ΣΕ ΜΙΚΡΕΣ ΠΕΡΙΟΧΕΣ ΠΟΥ ΒΑΣΙΖΟΝΤΑΙ ΜΟΝΟ ΣΤΟ ΑΠΟΡΡΗΤΟ ΟΠΟΙΟ ΕΙΝΑΙ ΠΡΟΚΗΡΥΞΗ ΜΕ ΜΕΘΟΔΟΣ που δεν είναι συμβατό με τη LARGE SCALE PRODUCTION. Χρησιμοποιώντας TWO DIFFERENT perovskite ABSORBERS σε ένα TANDEM CONFIGURATION SOLAR CELLS ΜΕ ΑΠΟΤΕΛΕΣΜΑΤΙΚΟΤΗΤΑ 30 % ΜΠΟΡΕΙ ΝΑ ΑΝΑΦΕΡΟΝΤΑΙ, ΟΠΟΙΑ ΠΑΓΚΟΣΜΙΑ ΑΝΑΘΕΩΡΗΣΗ ΤΩΝ ΦΩΤΟΒΟΛΤΑΙΚΩΝ ΑΓΟΡΩΝ._x000D_ CURRENT BEST THIN FILM WHITE LEDS ΧΡΗΣΙΜΟΠΟΙΗΣΗ ΜΟΝΟ ΟΡΓΑΝΙΚΑ ΥΛΙΚΑ (OLEDS) ΚΑΙ ΤΑΥΤΕΣ ΤΟΥΣ η καλύτερη αποτελεσματικότητα περιορίζεται σε 60 LM/W ΚΥΡΙΩΣ ΔΥΝΑΜΕΙ ΣΤΗΝ ΛΑΒΗ ΤΩΝ ΠΛΗΡΩΝ ΕΠΙΧΕΙΡΗΣΕΩΝ. Με ΧΡΗΣΙΜΟΠΟΙΗΣΗ ΥΨΗΛΩΝ ΥΛΙΚΩΝ ΜΕ ΑΜΕΡΙΚΟ ΗΛΕΚΤΡΟΝΙΚΟ ΚΑΙ HOLE ανασυνδυασμό με ΜΠΟΡΕΙ ΝΑ ΠΡΟΣΙΤΑΛΕΙ ΥΨΗΛΗ ΑΠΟΤΕΛΕΣΜΑΤΙΚΗ ΑΠΟΤΕΛΕΣΜΑΤΙΚΗ ΑΠΟΤΕΛΕΣΜΑΤΙΚΗ ΑΠΟΤΕΛΕΣΜΑΤΙΚΗ ΑΠΟΤΕΛΕΣΜΑΤΙΚΗ ΧΑΡΑΚΤΗΡΙΣΤΙΚΗ ΧΡΗΣΙΜΟΠΟΙΗΣΗ ΤΩΝ ΣΥΣΤΗΜΑΤΩΝ ΑΠΑΛΛΑΓΗΣ ΚΑΙ ΦΩΤΙΣΜΟΥ ΤΩΝ ΣΥΣΤΗΜΑΤΩΝ ΣΤΑ ΠΛΑΙΣΙΑ ΕΝΕΡΓΕΙΑΣ ΣΥΣΤΑΣΗΣ ΕΝΕΡΓΕΙΑΣ._x000D_ ΤΟ ΚΥΡΙΟ ΣΤΟΧΟΣ η ΑΝΑΠΤΥΞΗ ΤΟΥ:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE AND WHITE perovskite LIGHT-EMITTING DEVICES ΔΙΑΔΙΚΑΣΙΕΣ ΧΡΗΣΙΜΟΠΟΙΗΣΗΣ ΣΥΜΒΑΛΛΟΜΕΝΕΣ ΜΕ ΜΕΓΙΣΤΗ ΠΑΡΑΓΩΓΗ ΜΕ ΠΡΟΣΒΑΣΗ 20 % ΚΑΙ ΕΠΙΣΗΜΑΙΝΟΝΤΑΙ ΤΟ ΠΡΩΤΟΒΙΚΡΟΒΙΛΕΙΟ-perovskite TANDEM SOLAR CELLS ΜΕ VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT bandgap COMBINATION HAVINATION HAVING ΜΟΝΟ 18 %. Η ΟΜΆΔΑ ΜΑΣ ΈΧΕΙ ΕΠΙΔΕΊΞΕΙ ΠΡΌΣΦΑΤΑ ΠΕΡΙΣΣΌΤΕΡΑ ΑΠΌ 60 LM/W ΓΙΑ PEROVSKITE ΝΑΝΟΣΩΜΑΤΊΔΙΑ ΜΕ ΒΆΣΗ ΠΡΆΣΙΝΟ LED. ΩΣΤΌΣΟ, ΓΙΑ ΝΑ ΒΕΛΤΙΩΘΕΊ ΠΕΡΑΙΤΈΡΩ ΤΌΣΟ ΑΥΤΌΣ Ο ΤΎΠΟΣ ΣΥΣΚΕΥΏΝ, ΚΑΙ ΝΑ ΕΠΙΤΕΥΧΘΟΎΝ ΟΙ ΣΤΌΧΟΙ 30 % ΑΠΟΔΟΤΙΚΆ ΗΛΙΑΚΆ ΚΎΤΤΑΡΑ ΚΑΙ 100 LM/W ΑΠΌΔΟΣΗ ΣΕ ΣΥΣΚΕΥΈΣ ΠΟΥ ΕΚΠΈΜΠΟΥΝ ΛΕΥΚΌ ΦΩΣ, ΧΡΕΙΆΖΟΝΤΑΙ ΒΕΛΤΙΩΜΈΝΑ ΥΛΙΚΆ ΑΠΟΡΡΌΦΗΣΗΣ ΚΑΙ ΕΚΠΟΜΠΉΣ PEROVSKITE, ΚΑΘΏΣ ΚΑΙ ΤΗΝ ΕΝΣΩΜΆΤΩΣΉ ΤΟΥΣ ΣΕ ΑΡΧΙΤΕΚΤΟΝΙΚΈΣ ΔΎΟ ΣΥΣΚΕΥΏΝ ΠΟΥ ΧΡΗΣΙΜΟΠΟΙΟΎΝ ΠΕΡΙΣΣΌΤΕΡΑ ΑΠΌ ΈΝΑ ΗΜΙΑΓΏΓΙΜΑ ΥΛΙΚΆ. _x000D_ σε ΣΥΜΜΕΤΟΧΗ ΜΑΖΙΖΕΙ:_x000D_ DEVELOP LOW (1.2 EV) ΚΑΙ WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS που ΧΡΗΣΙΜΟΠΟΙΟΥΝ ΤΟΝ ΧΑΜΗΛΟ ΚΑΙ WIDE bandgap ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES ΜΕ αποτελεσματικότητα > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Greek)
4 August 2022
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S CIEĽOM ZABEZPEČIŤ BEZPEČNÚ, ÚČINNÚ A ČISTÚ ENERGIU (ENERGIA SEGURA, EFICIENTE Y LIMPIAИ) JE POTREBNÉ PODSTATNE ZNÍŽIŤ VYUŽÍVANIE FOSÍLNYCH PALÍV, PRETOŽE VEDÚ K EMISIÁM SKLENÍKOVÝCH PLYNOV A POCHÁDZAJÚ Z NEISTÝCH REGIÓNOV SVETA. CIEĽOM TÝCHTO PROJEKTOV JE PRISPIEŤ K ZNÍŽENIU SPOTREBY FOSÍLNYCH PALÍV PROSTREDNÍCTVOM VÝVOJA ÚČINNÝCH A NÍZKONÁKLADOVÝCH FOTOVOLTICKÝCH ZARIADENÍ, KTORÉ VYRÁBAJÚ ENERGIU Z OBNOVITEĽNÝCH ZDROJOV, A ROZVOJA ÚČINNÝCH SVETELNÝCH ZDROJOV, KTORÉ ZNIŽUJÚ SPOTREBU ELEKTRICKEJ ENERGIE. _x000D_ PROJEKTY NA DEVELOP FOTOVOLTAICKÉ A LIGHT-EMITTING DEVELOP-EMITING DEVELOP-EMITING DEVELOP DEVOLTAICKÉ ALEBO HYBRID-INORGANICKÉ perovskitové MATERIALS. TIETO PEROVSKITE MATERIÁLY MAJÚ LADITEĽNÉ BANDGAPY, KTORÉ UMOŽŇUJÚ GENEROVANIE NÍZKYCH A ŠIROKÝCH POHLCOVAČOV A TIEŽ ÚČINNÝCH SVETELNÝCH ŽIARIČOV POKRÝVAJÚCICH CELÝ VIDITEĽNÝ ROZSAH INFRAČERVENEJ VLNOVEJ DĹŽKY. OKREM TOHO MAJÚ NÍZKE NÁKLADY A MÔŽU SA APLIKOVAŤ AKO TENKÉ FÓLIE S VYUŽITÍM EKONOMICKÝCH PROCESOV KOMPATIBILNÝCH S VEĽKOPLOŠNOU A OBJEMOVOU VÝROBOU. _x000D_ aktuálne BEST perovskite SOLAR CELLS OCHRANA ÚČINNOSTI 22 % NA MALÝCH OBCHODNÝCH OBCHODNÝCH OBCHODNÝCH OBCHODNÝCH OBCHODNÝCH OBCHODNÝCH OBCHODNÝCH ZÁKLADOVÝCH VÝROBKOV, ktoré sú pripravené s takouto metódou, že nie je kompatibilná s LARGE SCALE PRODUKCTION. Použitie DWO DIFFERENT perovskite ABSORBERS v TANDEM CONFIGURATION SOLAR CELLS S účinnosťou ABOVE 30 % môže byť ACHIEVEDED, KTORÉ ROZHODNUTIAJÚ FOTOVOLTAICKÝ MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDY POUŽÍVAJÚ LEN ORGANICKÉ MATERIALS (OLED) A Ich najlepší účinnosť sa znižuje na 60 lM/W MAINLY DUE na LACKU veľmi EFFICIENTNÝCH BLUE DIODES. POUŽÍVANIE HYBRID MATERIALS S DIRECT ELECTRON A HHOLE rekombinácia, ktoré môžu REACH zvýšiť účinnosť, Ktoré budú fungovať GENERÁCIA HIGH EFFICIENCY LOW COST LIGHT SURCES pre DISPLAY a LIGHTING SYSTEMS, že STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJECTIVES sú VÝVOJ:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE A BIELY perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP má RECENTLY SHOWNING JUNKTION perovskite SOLAR CELLS PREPARED USING PROCESSES COMPATIBLE s LARGE SCALE PRODUCTION REACHing 20 % a tiež predchádzajúc Prvým perovskite-perovskite TANDEM SOLAR CELLS s VOC ABOVE 2 VOLTS YET DUE na NON-PERFECT bandgap COMBINATION HAVING LENENČNÁ EFFICIENCIA z 18 %. NAŠA SKUPINA NEDÁVNO DEMONŠTROVALA VIAC AKO 60 LM/W PRE PEROVSKITE NANOČASTICE ZALOŽENÉ NA ZELENÝCH LED DIÓDACH. NA ĎALŠIE ZLEPŠENIE OBOCH TÝCHTO TYPOV ZARIADENÍ A DOSIAHNUTIE CIEĽOV SÚ POTREBNÉ 30 % EFEKTÍVNE SOLÁRNE ČLÁNKY A 100 LM/W ÚČINNOSŤ V BIELYCH ZARIADENIACH NA VYŽAROVANIE SVETLA, SÚ POTREBNÉ ZLEPŠENÉ PEROVSKITE ABSORBUJÚCE A EMITUJÚCE MATERIÁLY, AKO AJ ICH INTEGRÁCIA DO ARCHITEKTÚR TANDEMOVÝCH ZARIADENÍ, KTORÉ POUŽÍVAJÚ VIAC AKO JEDEN POLOVODIČOVÝ MATERIÁL. _x000D_ v PARTICULÁRnej WE WILL:_x000D_ DEVELOP LOW (1.2 EV) A WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS POUŽITIE LOW A WIDE bandgap ABSORBERS_x000D_ DETERMINE THE FYSICAL OF THE OOVskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVELOP TANDEM DEVELOP TANDEM DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT BIELY perovskite LEDS. (Slovak)
4 August 2022
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JOTTA VOIDAAN VARMISTAA TURVALLINEN, TEHOKAS JA PUHDAS ENERGIA (ENERGIA SEGURA, EFICIENTE Y LIMPIA), FOSSIILISTEN POLTTOAINEIDEN KÄYTTÖÄ ON VÄHENNETTÄVÄ HUOMATTAVASTI, SILLÄ NE JOHTAVAT KASVIHUONEKAASUPÄÄSTÖIHIN JA TULEVAT MAAILMAN EPÄVARMOILTA ALUEILTA. HANKKEILLA PYRITÄÄN VÄHENTÄMÄÄN FOSSIILISTEN POLTTOAINEIDEN KULUTUSTA KEHITTÄMÄLLÄ TEHOKKAITA JA EDULLISIA AURINKOSÄHKÖLAITTEITA, JOTKA TUOTTAVAT UUSIUTUVAA ENERGIAA, JA KEHITTÄMÄLLÄ TEHOKKAITA VALONLÄHTEITÄ, JOTKA VÄHENTÄVÄT SÄHKÖNKULUTUSTA. _x000D_ PROJECT AIMS DEVELOP PHOTOVOLTAIC JA LIGHT-EMITTING DEVICES: ssä, missä ABSORBER- JA EMITTERS ovat oikeutettuja INORGANIC TAI HYBRID ORGANIC-INORGANIC-INORGANIC perovskite MATERIALS. NÄISSÄ PEROVSKITE-MATERIAALISSA ON VIRITETTÄVIÄ KAISTALEITA, JOTKA MAHDOLLISTAVAT MATALAN JA LEVEÄN KAISTANVAIMENTIMET JA MYÖS TEHOKKAAT VALOSÄTEILIJÄT, JOTKA KATTAVAT KOKO NÄKYVÄN JA LÄHES INFRAPUNA-AALLONPITUUSALUEEN. LISÄKSI NE OVAT EDULLISIA JA NIITÄ VOIDAAN KÄYTTÄÄ OHUINA KALVOINA KÄYTTÄEN TALOUDELLISIA PROSESSEJA, JOTKA OVAT YHTEENSOPIVIA SUUREN PINTA-ALAN JA VOLYYMIN TUOTANNON KANSSA. _x000D_ nykyinen BEST perovskite SOLAR CELLS, jotka ovat purkautuneet 22 % pienestä pienestä osasta, jotka ovat vain yksi perovskite ABSORBER, jotka ovat VAHVISTETTU METHOD: llä, joka ei ole COMPATIBLE WITH LARGE SCALE PRODUCTION. Käyttämällä TWO DIFFERENT perovskite ABSORBERS TANDEM CONFIGURATION SOLAR CELLS ABOVE 30 % voi olla KÄYTTÄVÄ, JÄLKEEN VALMISTAINEN MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDS USE vain ORGANIC MATERIALS (OLEDS) parhaat tehokkuusedut ovat peräisin 60 LM/W MAINLY DUE TO LACK LACK VERKKOKAUPPAKOHDOT. Käyttämällä HYBRID MATERIALS DITH DIRECT ELECTRON JA HOLE rekombinaatio me voimme REACH HIGHER tehokkuutta, jonka avulla HIGH EFFICIENCY LOW LIGHT SOURCES DISPLAY JA LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGIA CONSUMPTION._x000D_ MAIN OBJECTIVES ON KEHITTÄMINEN:_x000D_ 1) KEHITTÄMINEN perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE ja WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP on RECENTLY SHOWN SINGLE JUNCTION Perovskite SOLAR CELLS PREPARED US PROCESSES COMPATIBLE WITH LARGE SCALE PRODUCTION REACHING 20 % JA ON ALSO PREPARED FIRST perovskite-perovskite TANDEM SOLAR CELLS WITH VOC ABOVE 2 VOLTS YET DUE to NON-PERFECT bandgap COMBINATION HALLINVAATTEET, joka on 18 %: n EFFICIENCY. RYHMÄMME ON VIIME AIKOINA OSOITTANUT MYÖS YLI 60 LM/W PEROVSKITE NANOPARTIKKELIPOHJAISET VIHREÄT LEDIT. KUITENKIN EDELLEEN PARANTAA NÄITÄ LAITTEITA, JA SAAVUTTAA TAVOITTEET 30 % TEHOKAS AURINKOKENNOT JA 100 LM/W TEHOKKUUS VALKOISISSA VALOA LÄHETTÄVÄT LAITTEET, PARANNETTU PEROVSKITE ABSORBOIVA JA SÄTEILEVÄ MATERIAALEJA TARVITAAN SEKÄ NIIDEN INTEGROINTI TANDEM LAITEARKKITEHTUURIT, JOTKA KÄYTTÄVÄT USEAMPAA KUIN YHTÄ PUOLIJOHTAVAA MATERIAALIA. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) JA WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS US THESE LOW and WIDE bandgap ABSORBERS_x000D_ DETERMINE the PHYSICAL OF the perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES, joilla on tehokkuus > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Finnish)
4 August 2022
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ABY ZAPEWNIĆ BEZPIECZNĄ, WYDAJNĄ I CZYSTĄ ENERGIĘ (¿ENERGIA SEGURA, EFICIENTE Y LIMPIA¿), NALEŻY ZNACZNIE OGRANICZYĆ WYKORZYSTANIE PALIW KOPALNYCH, PONIEWAŻ PROWADZI TO DO EMISJI GAZÓW CIEPLARNIANYCH I POCHODZI Z NIEPEWNYCH REGIONÓW ŚWIATA. PROJEKTY TE MAJĄ NA CELU PRZYCZYNIENIE SIĘ DO ZMNIEJSZENIA ZUŻYCIA PALIW KOPALNYCH POPRZEZ OPRACOWANIE WYDAJNYCH I TANICH URZĄDZEŃ FOTOWOLTAICZNYCH WYTWARZAJĄCYCH ENERGIĘ ZE ŹRÓDEŁ ODNAWIALNYCH ORAZ ROZWÓJ WYDAJNYCH ŹRÓDEŁ ŚWIATŁA, KTÓRE ZMNIEJSZAJĄ ZUŻYCIE ENERGII ELEKTRYCZNEJ. _x000D_ PROJEKT AIMS TO DEVELOP PHOTOVOLTAIC I LIGHT-EMITTING DEVICES W UWZGLĘDNIENIAJĄCYCH BEZPIECZEŃSTWA I EMITTERÓW WIĘCEJ INORGANICZNYCH LUB HYBRIDNYCH ORGANICZNO-INORGANICZNYCH MATERIAŁÓW perovskite. TE MATERIAŁY PEROVSKITE MAJĄ PRZESTRAJALNE BANDGAPS, KTÓRE POZWALAJĄ NA GENEROWANIE NISKICH I SZEROKICH ABSORBERÓW BANDGAP, A TAKŻE WYDAJNYCH EMITERÓW ŚWIATŁA OBEJMUJĄCYCH CAŁY ZAKRES WIDZIALNYCH I BLISKICH DŁUGOŚCI FAL PODCZERWIENI. PONADTO SĄ ONE TANIE I MOGĄ BYĆ STOSOWANE JAKO CIENKIE FOLIE PRZY UŻYCIU PROCESÓW EKONOMICZNYCH KOMPATYBILNYCH Z PRODUKCJĄ WIELKOGABARYTOWĄ I WIELKOGABARYTOWĄ. _x000D_ BEST BEST Perovskite SOLAR CELLS HAVE REACHED AN EFFICIENCYJNE ZEWNĘTRZNE 22 % NA MAŁYCH AREA DEVICES BASED NA TYLKO JEDNEGO BEZPIECZEŃSTWA BEZ BEZPIECZEŃSTWA BEZ WYŁĄCZENIA JEDNEGO BEZPIECZEŃSTWA BEZ WYŁĄCZNEGO Z PRODUKCJĄ SCALE. Za pomocą DWÓJ DWÓJ DYFERENTNYCH BEZPIECZEŃSTWA BEZPIECZEŃSTWA W TANDEM CONFIGURATION SOLAR ZEWNĘTRZNYCH RYNKÓW OBOWIĄZKOWYCH OBOWIĄZKUJĄCYM BEZPIECZEŃSTWO, ZAWIERAJĄCYM CZĘŚCIĄ TYLKO ORGANICZNYCH MATERIAŁÓW (OLEDS) I ICH najlepsza wydajność jest LIMITED do 60 LM/W MAINLY DUE do LACK of VERY EFFICIENT BLUE DIODES. Używając HYBRID MATERIAŁY Z rekombinacją DIRECT ELECTRON I HOLE Możemy REACH HIGHER Efficiencies, które umożliwią OGÓLNOŚĆ OGÓLNYCH ŚWIATŁOŚCI ŚWIATŁYCH ŚWIATŁOŚCI DO SYSTEMÓW DISPLAY I LIGHTING THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ Główne cele są DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE and WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ Nasza GRUPA ZEWNĘTRZNA JUNKCJA PIERWSZEJ JUNKCJI perovskite SOLAR CELLS PREPARED USING PROCESES COMPATIBLE WITH LARGE SCALE PRODUKCTION REACHING 20 % ORAZ PRZYJMUJĄC SIĘ PIERWSZE perovskite-perovskite-perovskite TANDEM SOLAR CELLS Z LOKIEM o 2 VOLTS YET DUE TO NON-PERFECT bandgap COMBINATION HAVING ¿ONLYŻAN EFFICIENCY OF 18 %. NASZA GRUPA WYKAZAŁA SIĘ OSTATNIO PONAD 60 LM/W DLA PEROVSKITE NANOCZĄSTE NANOCZĄSTE DIODY LED OPARTE. JEDNAK ABY JESZCZE BARDZIEJ ULEPSZYĆ ZARÓWNO TEGO TYPU URZĄDZENIA, JAK I OSIĄGNĄĆ CELE 30 % WYDAJNYCH OGNIW SŁONECZNYCH I WYDAJNOŚCI 100 LM/W W URZĄDZENIACH EMITUJĄCYCH ŚWIATŁO BIAŁE, POTRZEBNE SĄ ULEPSZONE MATERIAŁY POCHŁANIAJĄCE I EMITUJĄCE PEROVSKITE, A TAKŻE ICH INTEGRACJA W ARCHITEKTURZE URZĄDZEŃ TANDEMOWYCH, W KTÓRYCH WYKORZYSTUJE SIĘ WIĘCEJ NIŻ JEDEN MATERIAŁ PÓŁPRZEWODNIKOWY. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) I WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS UŻYTKUJĄCY SZCZEGÓŁY SOLAR SŁUŻBY UŻYTKOWNIK I BEZPIECZEŃSTWA ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVELOP DEVELOP DEVELOP TANDEM DEVELOP BLUE LIGHT-EMITTES > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Polish)
4 August 2022
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A BIZTONSÁGOS, HATÉKONY ÉS TISZTA ENERGIA BIZTOSÍTÁSÁHOZ (ENERGIA SEGURA, EFICIENTE Y LIMPIA) JELENTŐSEN CSÖKKENTENI KELL A FOSSZILIS TÜZELŐANYAGOK HASZNÁLATÁT, MIVEL EZEK AZ ÜVEGHÁZHATÁST OKOZÓ GÁZOK KIBOCSÁTÁSÁHOZ VEZETNEK, ÉS A VILÁG NEM BIZTONSÁGOS RÉGIÓIBÓL SZÁRMAZNAK. E PROJEKTEK CÉLJA, HOGY HATÉKONY ÉS ALACSONY KÖLTSÉGŰ, MEGÚJULÓ ENERGIÁT TERMELŐ FOTOVOLTAIKUS ESZKÖZÖK KIFEJLESZTÉSÉVEL, VALAMINT A VILLAMOSENERGIA-FOGYASZTÁST CSÖKKENTŐ HATÉKONY FÉNYFORRÁSOK KIFEJLESZTÉSÉVEL HOZZÁJÁRULJANAK A FOSSZILIS TÜZELŐANYAGOK FOGYASZTÁSÁNAK CSÖKKENTÉSÉHEZ. _x000D_ a PROJECT MINDENKÉNEK FELHASZNÁLÁSI FOTOVOLTAI ÉS LIGHT-EMITTING DEVICES AZ ABSORBER ÉS EMITTERTEREK A NEMZETKÖZI vagy HYBRID ORGANIC-INORGANIC perovskite MATERIALS. EZEK A PEROVSKIT ANYAGOK HANGOLHATÓ SÁVGAPS-OKKAL RENDELKEZNEK, AMELYEK LEHETŐVÉ TESZIK AZ ALACSONY ÉS SZÉLES SÁVELNYELŐK ÉS A HATÉKONY FÉNYKIBOCSÁTÓK LÉTREHOZÁSÁT, AMELYEK LEFEDIK AZ EGÉSZ LÁTHATÓ ÉS KÖZEL INFRAVÖRÖS HULLÁMHOSSZ-TARTOMÁNYT. EMELLETT ALACSONY KÖLTSÉGŰEK, ÉS VÉKONYFILMKÉNT IS ALKALMAZHATÓK A NAGY TERÜLET- ÉS VOLUMENGYÁRTÁSSAL ÖSSZEEGYEZTETHETŐ GAZDASÁGI FOLYAMATOK ALKALMAZÁSÁVAL. _x000D_ A jelenlegi legjobb perovskite SOLAR CELLSEK 22% -os EFFICIENCY-t hoztak létre a csak egyetlen perovskite ABSORBER-en alapuló, csak egy perovskite ABSORBER-en alapuló, 22% -os EFFICIENCIA-ra vonatkozóan, mivel ez nem kompatitív azzal a feltétellel, hogy a termék nem áll fenn. A TWO DIFFERENT perovskite ABSORBERS-t egy TANDEM CONFIGURATION SOLAR CELL-ben használva 30% -os hatékonysággal rendelkezik, a FOTOVOLTAIC MARKET._x000D_ CURRENT BEST A FILM WHITE LED-ek csak ORGANIC MATERIALS (OLEDS) és BEST BEST a hatékonyságot 60 LM/W MAINLY DIOD-ra kell csökkenteni a nagyon nagy mennyiségű kék színben. Azáltal, hogy HYBRID MATERIALS-t használ az ELECTRON és a HOLE rekombinációjával, hogy a REACH HIGHER hatékonysági mutatói lehetővé teszik, hogy a HIGH EFFICIENCY LOW COST LIGHT SOURCES DISPLAY ÉS LIGHTING SYSTEMS Ez a STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ A MAIN OBJECTÍVEK ARE A DEVELOP OF:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP EGYESÜLT FILM BLUE ÉS WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ A mi csoportunk KÖVETELMÉNYES JUNCTION perovskite SOLAR CELLS PREPARED az első perovskite-perovskite-perovskite TANDEM SOLAR CELLSELEK a VOC ABOVE 2 VOLT-val még nem készültek el, és 18% -os KÖVETKEZTETÉSI KÖVETKEZÉSI KÖLTSÉGVETÉSI KÖRNYEZETVÉLEMÉNYEKRE VONATKOZÓ RENDELKEZÉSEK CSOPORTUNK A KÖZELMÚLTBAN TÖBB MINT 60 LM/W-OT MUTATOTT BE A PEROVSKIT NANORÉSZECSKÉS ZÖLD LED-EK ESETÉBEN. AZ ILYEN TÍPUSÚ ESZKÖZÖK TOVÁBBI JAVÍTÁSA ÉS A 30%-OS HATÉKONY NAPELEMEK ÉS A FEHÉR FÉNYKIBOCSÁTÓ ESZKÖZÖK 100 LM/W HATÁSFOKÁNAK ELÉRÉSE ÉRDEKÉBEN JAVÍTANI KELL A PEROVSKIT ELNYELŐ ÉS KIBOCSÁTÓ ANYAGOKAT, VALAMINT INTEGRÁLNI KELL AZOKAT A TANDEM ESZKÖZ ARCHITEKTÚRÁKBA, AMELYEK EGYNÉL TÖBB FÉLVEZETŐ ANYAGOT HASZNÁLNAK. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) ÉS WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLSEK, amelyek használják az ABSORBERS_x000D_ DETERMINE A perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES 30% feletti hatékonysággal._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Hungarian)
4 August 2022
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ABY BYLA ZAJIŠTĚNA BEZPEČNÁ, ÚČINNÁ A ČISTÁ ENERGIE (ENERGIA SEGURA, EFICIENTE Y LIMPIA′), JE TŘEBA PODSTATNĚ OMEZIT VYUŽÍVÁNÍ FOSILNÍCH PALIV, NEBOŤ TO VEDE K EMISÍM SKLENÍKOVÝCH PLYNŮ A POCHÁZÍ Z NEJISTÝCH REGIONŮ SVĚTA. CÍLEM TĚCHTO PROJEKTŮ JE PŘISPĚT KE SNÍŽENÍ SPOTŘEBY FOSILNÍCH PALIV ROZVOJEM ÚČINNÝCH A NÍZKONÁKLADOVÝCH FOTOVOLTAICKÝCH ZAŘÍZENÍ, KTERÁ VYRÁBĚJÍ ENERGII Z OBNOVITELNÝCH ZDROJŮ, A ROZVOJEM ÚČINNÝCH SVĚTELNÝCH ZDROJŮ, KTERÉ SNIŽUJÍ SPOTŘEBU ELEKTŘINY. _x000D_ PROJECT AIMS pro DEVELOP FOTOVOLTAICKÉ a LIGHT-EMITTING DEVICES V KTERÉ BEROU ABSORBER A EMITTERS NA INORGANICKÉ nebo HYBRID ORGANIC-INORGANIC-INORGANIC perovskite MATERIALS. TYTO PEROVSKITOVÝ MATERIÁL MAJÍ LADITELNÉ PÁSMOVÉ MEZERY, KTERÉ UMOŽŇUJÍ GENEROVÁNÍ ABSORBÉRŮ S NÍZKÝM A ŠIROKÝM PÁSMEM A TAKÉ ÚČINNÉ SVĚTELNÉ ZÁŘIČE POKRÝVAJÍCÍ CELÝ VIDITELNÝ A TÉMĚŘ INFRAČERVENÝ ROZSAH VLNOVÝCH DÉLEK. NAVÍC MAJÍ NÍZKÉ NÁKLADY A MOHOU BÝT POUŽITY JAKO TENKÉ FÓLIE POMOCÍ EKONOMICKÝCH PROCESŮ SLUČITELNÝCH S VELKOU PLOCHOU A OBJEMOVOU VÝROBOU. _x000D_ aktuální BEST perovskite SOLAR CELLS HAVE REACHED A EFFICIENCY OF 22 % ON SMALL AREA DEVICES BASED ONLY ONE perovskite ABSORBER, že jsou předurčeny s metodou, že není kompatibilní s omezeným SCALE PRODUCTION. Použití TWO DIFFERENT perovskite ABSORBERS V TANDEM CONFIGURATION SOLAR CELLS s účinností 30 % mohou být vyřešeny, proč by mohly být reprodukovány PHOTOVOLTAICKÝ MARKET._x000D_ CURRENT BEST TÉTO FILM WHITE LED používá pouze ORGANIC MATERIALS (OLED) a jejich nejlepší efektivita jsou LIMITED na 60 LM/W s největší pravděpodobností ke souběhu velmi EFFICIENT BLUE DIODES. Tím, že používá HYBRID MATERIALS s DIRECT ELECTRON A HOLE rekombinace Může REACH HIGHERICKÉ Účinnosti, které budou přiživit GENERACE HIGH EFFICIENCY LOW COST LIGHT SOURCES PRO DISPLAY A SVĚTOVÉ SYSTÉMY, že STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJEKTIVES jsou DEVELOPACE:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE and WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ Naše GROUP HAS RECENTLY SHOWN SINGLE JUNCTION perovskite SOLAR CELLS PREPARED použití PROCESSs COMPATIBLE SARGE SCALE PRODUCTION REACHING 20 % A ALSO předvedl první perovskite-perovskite TANDEM SOLAR CELLS s VOC ABOVE 2 VOLTS YET DUE to NON-PERFECT bandgap COMBINATION HAVING â NONLY "AN EFFICIENCY OF 18 %. NAŠE SKUPINA NEDÁVNO TAKÉ PROKÁZALA VÍCE NEŽ 60 LM/W PRO PEROVSKITOVÉ NANOČÁSTICE ZALOŽENÉ NA ZELENÝCH LED DIODÁCH. K DALŠÍMU ZLEPŠENÍ OBOU TĚCHTO TYPŮ ZAŘÍZENÍ A DOSAŽENÍ CÍLŮ 30 % ÚČINNÝCH SOLÁRNÍCH ČLÁNKŮ A 100 LM/W ÚČINNOSTI V ZAŘÍZENÍCH VYZAŘUJÍCÍCH BÍLÉ SVĚTLO JSOU ZAPOTŘEBÍ VYLEPŠENÉ PEROVSKITOVÉ POHLCUJÍCÍ A EMITUJÍCÍ MATERIÁLY, JAKOŽ I JEJICH INTEGRACE DO ARCHITEKTURY TANDEMOVÝCH ZAŘÍZENÍ, KTERÁ POUŽÍVAJÍ VÍCE NEŽ JEDEN POLOVODIČOVÝ MATERIÁL. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) A WIDE (1.8 EV) pásmová mezera perovskit ABSORBERS_x000D_ DEVELOP EFFICIENT SOLAR CELLS SOLAR CELLY, které používají THESE LOW A WIDE bandgap ABSORBERS_x000D_ DETERMINE THE FYSICAL of the perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES S účinností > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Czech)
4 August 2022
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LAI NODROŠINĀTU DROŠU, EFEKTĪVU UN TĪRU ENERĢIJU (ENERGIA SEGURA, EFICIENTE Y LIMPIA), IR BŪTISKI JĀSAMAZINA FOSILĀ KURINĀMĀ IZMANTOŠANA, JO TĀ REZULTĀTĀ RODAS SILTUMNĪCEFEKTA GĀZU EMISIJAS UN NĀK NO NEDROŠIEM PASAULES REĢIONIEM. ŠO PROJEKTU MĒRĶIS IR PALĪDZĒT SAMAZINĀT FOSILĀ KURINĀMĀ PATĒRIŅU, IZSTRĀDĀJOT EFEKTĪVAS UN LĒTAS FOTOELEMENTU IERĪCES, KAS RAŽO ATJAUNOJAMO ENERĢIJU, UN IZSTRĀDĀJOT EFEKTĪVUS GAISMAS AVOTUS, KAS SAMAZINA ELEKTROENERĢIJAS PATĒRIŅU. _x000D_ DEVELOP PHOTOVOLTAIC UN LIGHT-EMITTING DEVICES UN LIGHT-EMITTING DEVICES KAS ATTIECĪBĀ UZ INORGĀNIJAS VAI HYBRID ORGANIC-INORGANIC perovskite MATERIALS. ŠIEM PEROVSKĪTA MATERIĀLIEM IR NOSKAŅOJAMI BANDGAPS, KAS ĻAUJ ĢENERĒT ZEMU UN PLAŠU JOSLU ABSORBĒTĀJUS, KĀ ARĪ EFEKTĪVUS GAISMAS IZSTAROTĀJUS, KAS APTVER VISU REDZAMO UN TUVU INFRASARKANO VIĻŅU GARUMU DIAPAZONU. TURKLĀT TIEM IR ZEMAS IZMAKSAS, UN TOS VAR IZMANTOT KĀ PLĀNAS PLĒVES, IZMANTOJOT EKONOMISKOS PROCESUS, KAS IR SADERĪGI AR LIELU PLATĪBU UN APJOMA RAŽOŠANU. _x000D_ pašreizējais labākais perovskite SOLAR CELLS HAVE REACHED ar 22 % uz mazām AREA DEVICES, kas atrodas TIKAI ONE perovskite ABSORBER, kas ir ieteicams ar METOD, tas nav konkurents ar LARGE SCALE PRODUKCIJA. Izmantojot divu DIFFERENT perovskite ABSORBERS TANDEM CONFIGURATION SOLAR CELLS ar efektivitāti ABOVE 30 % var izmantot tikai ORGANIC MATERIALS (OLEDS) un to labāko efektivitāte ir ierobežota ar 60 LM/W būtiski DUE uz Ļauno EFFICIENT BLUE DIODES. Izmantojot HYBRID MATERIALS ar DIRECT ELECTRON UN HOLE rekombināciju, kas var būt REACH augsta efektivitāte, kurā ieraudzīs HIGH EFFICIENCY LOW COST LIGHT SOURCES DISPLAY UN LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJECTIVES ARE DEVELOP OF:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE UN WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ mūsu GROUP HAS RECENTLY SHOWN SINGLE JUNCTION perovskite SOLAR CELLS PREPARED LIETOŠANAS PROCESSES COMPATIBLE WITH LARGE SCALE PRODUKCIJA LĪGUMSLĒDZĒŠANAS 20 % Un HAVE ALSO PIEŅEMTS FIRST perovskite-perovskite TANDEM SOLAR CELLS ar VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT bandgap COMBINATION HAVING œONLYţAN EFFICIENCY no 18 %. MŪSU GRUPA NESEN IR ARĪ DEMONSTRĒJUSI VAIRĀK NEKĀ 60 LM/W PEROVSKITE NANODAĻIŅU BĀZES ZAĻĀS GAISMAS DIODES. TOMĒR, LAI VĒL VAIRĀK UZLABOTU GAN ŠĀDA VEIDA IERĪCES, GAN SASNIEGTU 30 % EFEKTĪVU SAULES BATERIJU UN 100 LM/W EFEKTIVITĀTI BALTĀS GAISMAS EMISIJAS IERĪCĒS, IR NEPIECIEŠAMI UZLABOTI PEROVSKĪTA ABSORBĒJOŠIE UN IZSTAROJOŠIE MATERIĀLI, KĀ ARĪ TO INTEGRĀCIJA TANDĒMA IERĪČU ARHITEKTŪRĀ, KAS IZMANTO VAIRĀK NEKĀ VIENU PUSVADĪTĀJU MATERIĀLU. _x000D_ in PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) UN WIDE (1,8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS LOW un WIDE bandgap ABSORBERS_x000D_ DETERMINE PHYSICAL OF The Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES ar efektivitāti > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Latvian)
4 August 2022
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CHUN FUINNEAMH SÁBHÁILTE, ÉIFEACHTÚIL AGUS GLAN A ÁIRITHIÚ (°ENERGIA SEGURA, EFICIENTE Y LIMPIA), NÍ MÓR ÚSÁID BREOSLAÍ IONTAISE A LAGHDÚ GO SUNTASACH, ÓS RUD É GO MBÍONN ASTUITHE GÁS CEAPTHA TEASA MAR THORADH ORTHU AGUS GO DTAGANN SIAD Ó RÉIGIÚIN NEAMHDHAINGEAN AR FUD AN DOMHAIN. IS É IS AIDHM DO NA TIONSCADAIL SIN RANNCHUIDIÚ LE TOMHALTAS BREOSLAÍ IONTAISE A LAGHDÚ TRÍ GHLÉASANNA FÓTAVOLTACHA ÉIFEACHTÚLA AR CHOSTAS ÍSEAL A FHORBAIRT LENA NGINFEAR FUINNEAMH IN-ATHNUAITE, AGUS TRÍ FHOINSÍ SOLAIS ÉIFEACHTÚLA A FHORBAIRT A LAGHDÓIDH AN TOMHALTAS LEICTREACHAIS. _x000D_ na AIMS PRIOECT chun dul i ngleic le cinntí pHOTOVOLTAIS agus SOLAS i dtaca leis an tsocóid agus leis na hiompróirí a bheidh á dtiontú ar mhórchoinníollacha oirirce nó cróga-neamhreathnaitheacha. TÁ BANDGAPS TUNABLE AG AN ÁBHAR PEROVSKITE SEO A CHUIREANN AR CHUMAS IONSÚIRÍ BANDGAP BANDGAP ÍSEAL AGUS LEATHAN A GHINIÚINT AGUS ASTAÍONN SOLAS ÉIFEACHTACH A CHLÚDAÍONN AN RÉIMSE TONNFHAID INFRIDHEARG AR FAD ATÁ LE FEICEÁIL AGUS IN AICE LEIS. INA THEANNTA SIN, TÁ SIAD AR CHOSTAS ÍSEAL AGUS IS FÉIDIR IAD A CHUR I BHFEIDHM MAR SCANNÁIN TANAÍ AG BAINT ÚSÁIDE AS PRÓISIS EACNAMAÍOCHA ATÁ COMHOIRIÚNACH LE TÁIRGEADH MÓR LIMISTÉIR AGUS TOIRTE. _x000D_ atá ann faoi láthair SOLAR CELLS IS FEARR A DHÉANAMH FÉIDIR LE TÁIRGÍ SAOR IN AISCE A BHAINEANN LE TÁIRGÍ SAOR IN AISCE AMHÁIN LE TÁIRGE SCALE LARGE. Ag baint úsáide as ABSORBERS STIÚRTHÓIREACHT TWO I gCÚRSAÍ SOLAR CONFIEM LE BHFUIL 30 % CAN a bheith curtha i bhfeidhm, athbhreithniú a dhéanamh ar athruithe ar an MARKET._x000D PHOTOVOLTAIC._x000D_BURRENT BEST LED FILM ÚSÁIDEACHA ÚSÁID AR LÁITHREÁN EORPAIGH (OLEDs) AGUS IS FEARR tá na hOifeachtúlachta i bhfeidhm go dtí 60 bliain d’aois nó níos mó go dtí Lac na nUiscí Úinéireachta go léir. Trí úsáid a bhaint as MATERIALS HYBRID le ELTRON DÍREACH agus le hathbheochan an phobail, ba chóir go n-éireodh le h-iontaoibh na n-údarás bóithre agus na ndaoine atá freagrach as solas a chur faoi bhráid Chúirteanna SOLAS DISPLAY agus faoi cheannas an Choinbhinsiúin Fuinnimh._x000D_ the MINOCHTIVES ag baint úsáide as: _x000D_ 1) Tógáil go héifeachtach leis an bpróiseas oibriúcháin._x000D_x000D_ 2) dul i ngleic leis an LUEANNA FILM agus leis an gceart chun déileáil le gníomhaíochtaí._x000D_ _x000D_ _x000D_ _ _x000D_OUR GRÚPA CELLS PRÁISIÚNTA ÚSÁID COMPATIBLE LE TÁIRGE TÁIRGE REACH 20 % agus HAVE ALSO D’fhéach an FÉIDIR CELLS SOLAR-PEROVSKITE-PEROVSKITE le VOC A BHFUIL 2 VOLTS YET DUE le COMBINATION Banna NON-IBRÍOCHTA LE hOifeacht 18 %. LÉIRIGH ÁR NGRÚPA LE DÉANAÍ NÍOS MÓ NÁ 60 LM/W LE HAGHAIDH SOILSE GLASA ATÁ BUNAITHE AR NANACHÁITHNÍNÍ PEROVSKITE. ACH CHUN AN DÁ CHINEÁL FEISTÍ SEO A FHEABHSÚ TUILLEADH, AGUS NA SPRIOCANNA A BHAINT AMACH 30 % CEALLA GRÉINE ÉIFEACHTACHA AGUS ÉIFEACHTÚLACHT 100 LM/W I BHFEISTÍ ASTAITHE SOLAIS BÁN, TÁ GÁ LE HÁBHAIR IONSÚITE AGUS ASTAITHE FEABHSAITHE A IONSÚ AGUS A ASTÚ CHOMH MAITH LENA GCOMHTHÁTHÚ IN AILTIREACHT FEISTÍ TANDEM A ÚSÁIDEANN NÍOS MÓ NÁ AON ÁBHAR LEATHSHEOLTACH AMHÁIN. _x000D_ sa Bhabhta Páirteach:_x000D_OW (1.2 EV) agus WIDE (1.8 EV) agus WIDE (1.8 EV) ABSORBERS_x000D_x000D_ DEVELOP Teilifís SOLAR JUNCTION Úsáidtear ABSBERS_x000D_x000D. téarmaí & Coinníollacha CELLS._x000D_SOLÁTHAR CELLS._x000D_SOLÁTHAR le hoibríochtaí faoi stiúir._x000D_DEVELOP Soilse PEROSVKITE faoi stiúir._x000D_DEVELOP Soilse PEROSVKITE faoi stiúir. (Irish)
4 August 2022
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DA BI ZAGOTOVILI VARNO, UČINKOVITO IN ČISTO ENERGIJO (ENERGIA SEGURA, EFICIENTE Y LIMPIA), JE TREBA UPORABO FOSILNIH GORIV BISTVENO ZMANJŠATI, SAJ POVZROČAJO EMISIJE TOPLOGREDNIH PLINOV IN PRIHAJAJO IZ NEGOTOVIH REGIJ SVETA. NAMEN TEH PROJEKTOV JE PRISPEVATI K ZMANJŠANJU PORABE FOSILNIH GORIV Z RAZVOJEM UČINKOVITIH IN POCENI FOTONAPETOSTNIH NAPRAV, KI PROIZVAJAJO ENERGIJO IZ OBNOVLJIVIH VIROV, TER Z RAZVOJEM UČINKOVITIH SVETLOBNIH VIROV, KI ZMANJŠUJEJO PORABO ELEKTRIČNE ENERGIJE. _x000D_ PROJEKTNI AMETIKI ZA DEVELOP FHOTOVOLTAIC IN LIGHT-EMITTING DEVICES V KI JIH DOVOLJENJE IN EMITTERS, ki so bili položeni na INORGANIC ALI HIBRIDNIKO ORGANIKO-INORGANIKO perovskite MATERIALS. TI PEROVSKITE MATERIAL IMAJO NASTAVLJIVE PASOVNE POTEZE, KI OMOGOČAJO USTVARJANJE NIZKIH IN ŠIROKIH ABSORBERJEV PASOV IN TUDI UČINKOVITIH SVETLOBNIH ODDAJNIKOV, KI POKRIVAJO CELOTNO VIDNO IN BLIZU INFRARDEČE VALOVNE DOLŽINE. POLEG TEGA SO POCENI IN SE LAHKO UPORABLJAJO KOT TANKE FOLIJE Z UPORABO GOSPODARSKIH PROCESOV, KI SO ZDRUŽLJIVI S PROIZVODNJO VELIKIH POVRŠIN IN OBSEGA. _x000D_ Trenutni BEST perovskite SOLAR CELLI JE VELIKO VELIKO 22 % NA MALIH AREA DEVIČIH, ki so bile narejene SAMO ENE perovskite ABSORBER, KAJ PRIPRAVLJENE Z METO, ki ni kompatibilen s PROIZVODNJO PROIZVODNEGA PROIZVODA. Uporaba TWO DIFFERENT perovskite ABSORBERS V TANDEM KONFIGURATION SOLAR CELLS Z učinkovitostjo ABOVE 30 % KI JE UPOŠTEVAJO, KI JE UPORABLJATI PHOTOVOLTAIC MARKET._x000D_ CURRENT BEST THIN FILM BELI UPORABE SAMO ORGANIČNI MATERIALS (OLEDS) IN NAJBOLJŠE Učinkovitosti omejen je na 60 lM/W MAINLY DUE DUE THE LACK OF VERY EFFICIENT BLUE DIODES. Z UPORABO HYBRID MATERIALS Z DIRECT ELEKTRON IN HOLE rekombinacijo KAKO REACH HIGHER Efficiencis KI JIH ODLOČITEV DOLOČBE HIGH EFFICIENCY LOW COST LIGHT SOURCES ZA DISPLAY IN LOČENJE SYSTEMS TH STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJEKTI razvoj:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE IN BELA perovskite LIGHT-EMITTING DEVICES. USING PROCESSES COMPATIBLE Z LARGE SCALE PRODUCTION REACHING 20 % IN HAVE NAMESTITEV PRIPRAVLJENJA PRVIH perovskite-perovskite TANDEM SOLAR CELLS Z VOS ABOVE 2 VOLTS YET DUE TO NON-PERFECT bandgap COMBINATION HAVING φONLYφAN EFFICIENCY v višini 18 %. NAŠA SKUPINA JE PRED KRATKIM POKAZALA TUDI VEČ KOT 60 LM/W ZA ZELENE LED NANODELCE PEROVSKITE. ZA NADALJNJE IZBOLJŠANJE OBEH VRST NAPRAV IN DOSEGANJE CILJEV 30 % UČINKOVITIH SONČNIH CELIC IN 100 LM/W UČINKOVITOSTI V BELIH NAPRAVAH, KI ODDAJAJO SVETLOBO, SO POTREBNI IZBOLJŠANI MATERIALI, KI ABSORBIRAJO PEROVSKITE IN ODDAJAJO, TER NJIHOVA VKLJUČITEV V ARHITEKTURO TANDEMSKIH NAPRAV, KI UPORABLJAJO VEČ KOT EN POLPREVODNIŠKI MATERIAL. _x000D_ v PARTICULAR WE WE WILL:_x000D_ DEVELOP LOW (1.2 EV) IN WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS UPORABE LOW IN WIDE bandgap ABSORBERS_x000D_ DETERMINE PHYSICAL of the perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES z učinkovitostjo > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LED. (Slovenian)
4 August 2022
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ЗА ДА СЕ ГАРАНТИРА БЕЗОПАСНА, ЕФЕКТИВНА И ЧИСТА ЕНЕРГИЯ (ENERGIA SEGURA, EFICIENTE Y LIMPIA), ИЗПОЛЗВАНЕТО НА ИЗКОПАЕМИ ГОРИВА ТРЯБВА ДА БЪДЕ ЗНАЧИТЕЛНО НАМАЛЕНО, ТЪЙ КАТО ТОВА ВОДИ ДО ЕМИСИИ НА ПАРНИКОВИ ГАЗОВЕ И ИДВА ОТ НЕСИГУРНИ РЕГИОНИ В СВЕТА. ТЕЗИ ПРОЕКТИ ИМАТ ЗА ЦЕЛ ДА ДОПРИНЕСАТ ЗА НАМАЛЯВАНЕ НА ПОТРЕБЛЕНИЕТО НА ИЗКОПАЕМИ ГОРИВА ЧРЕЗ РАЗРАБОТВАНЕ НА ЕФЕКТИВНИ И ЕВТИНИ ФОТОВОЛТАИЧНИ УСТРОЙСТВА, КОИТО ГЕНЕРИРАТ ЕНЕРГИЯ ОТ ВЪЗОБНОВЯЕМИ ИЗТОЧНИЦИ, И ЧРЕЗ РАЗРАБОТВАНЕ НА ЕФЕКТИВНИ СВЕТЛИННИ ИЗТОЧНИЦИ, КОИТО НАМАЛЯВАТ ПОТРЕБЛЕНИЕТО НА ЕЛЕКТРОЕНЕРГИЯ. _x000D_ ПРОЕКТА НА ПРОЕКТА НА РАЗВИТИЕ НА ФОТОВОЛТАТИЧНИ И ПРЕВОЗНИ УПРАВЛЕНИЯ В КОИТО ВЪЗДЕЙСТВИЕТО И ЕМИТЕРИТЕ СЪОБЩЕНИ ВЪПРОСИ ВИНОРГАНИЧНИТЕ ОРГАНИЧНИ ОРГАНИ-ИНОРГАНИЧЕСКИ МАТЕРИАЛИ. ТЕЗИ PEROVSKITE МАТЕРИАЛ ИМАТ РЕГУЛИРУЕМИ ЛЕНТИ, КОИТО ПОЗВОЛЯВАТ ГЕНЕРИРАНЕТО НА НИСКИ И ШИРОКИ АБСОРБАТОРИ НА ЧЕСТОТНАТА ЛЕНТА, КАКТО И ЕФЕКТИВНИ ИЗЛЪЧВАТЕЛИ НА СВЕТЛИНА, ПОКРИВАЩИ ЦЕЛИЯ ВИДИМ И БЛИЗО ДО ИНФРАЧЕРВЕНИЯ ДИАПАЗОН ДЪЛЖИНА НА ВЪЛНАТА. ОСВЕН ТОВА ТЕ СА С НИСКА ЦЕНА И МОГАТ ДА СЕ ПРИЛАГАТ КАТО ТЪНКИ ФИЛМИ, КАТО СЕ ИЗПОЛЗВАТ ИКОНОМИЧЕСКИ ПРОЦЕСИ, СЪВМЕСТИМИ С ПРОИЗВОДСТВОТО НА ГОЛЕМИ ПЛОЩИ И ОБЕМИ. _x000D_ настоящи най-добрите perovskite SOLAR CELLS СЛЕДВА ЕФФИЧЕНСИЯ НА 22 % В МАЛКИ АРЕА РАЗВИТИКИ ОБРАЗОВАНИЕ НА ЕДИНЕН ЕДИНОВЕН АБОРБЕР, че са предстоящи с метад, който не е конкурентен с най-малко SCALE PRODUCTION. Използване на два различни perovskite ABSORBERS в TANDEM CONFIGURATION SOLAR CELLS С Ефективност ABOVE 30 % могат да бъдат отделени, като се има предвид, че СВЕТЪТ НА ФОТОВОЛТАИКАТА МАРКЕТ._x000D_ CURRENT BEST THIN FILM WHITE LEDS USE само ORGANIC MATERIALS (OLEDS) И TIR най-добрата ефективност е LIMITED до 60 LM/W МОЖЕ ДА В ЛЯКОТО НА ПРЕВОЗНОТО ЕФФИЦИЕНтно СВЕТА. Чрез използване на HYBRID MATERIALS с директен ЕЛЕКТРОН и HOLE рекомбинация, ние можем да достигнем по-висока ефективност, която ще съхрани генерацията на HIGH EFFICIENCY LOW LIGHT SOURCES FOR DISPLAY И LIGHTING SYSTEMS, които съдържат консумация на енергията._x000D_ Главните органи ИЗРАЗЯВАНЕ НА:_x000D_ 1) Разработване на ЕФФИЗЕНТ Перовските-перовските TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE и WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ Нашата ГРУПА СЪДЪРЖА ПРЕДСТАВЯНЕТО НА ПЕЧАЛБИТЕ ЮНИЦЕ ИЗИСКВАНЕ ПРОЦЕСИ КОМПАТИРАНЕ С ЛИЧНО СКАЛА ПРОИЗВОДСТВО 20 % И СЪЩО ПРЕПОРЪЧА ПЪРВАТА perovskite-perovskite TANDEM SOLAR CELLS с VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT ВЪЗЛОЖЕНИЯ КОБИНА ЗА КОБИНА СЪВЕТЪТ ВЪЗЛОЖИТЕЛНА ЕФФИЧЕНСИЯ от 18 %. НАШАТА ГРУПА НАСКОРО ДЕМОНСТРИРА ПОВЕЧЕ ОТ 60 LM/W ЗА ЗЕЛЕНИ СВЕТОДИОДИ, БАЗИРАНИ НА ПЕРОВСКИТЕ НАНОЧАСТИЦИ. И ВСЕ ПАК, ЗА ДА СЕ ПОДОБРЯТ ДОПЪЛНИТЕЛНО И ДВАТА ВИДА УСТРОЙСТВА, И ДА СЕ ПОСТИГНАТ ЦЕЛИТЕ 30 % ЕФЕКТИВНИ СЛЪНЧЕВИ КЛЕТКИ И 100 LM/W ЕФЕКТИВНОСТ В УСТРОЙСТВАТА ЗА ИЗЛЪЧВАНЕ НА БЯЛА СВЕТЛИНА, НЕОБХОДИМИ СА ПОДОБРЕНИ АБСОРБИРАЩИ И ИЗЛЪЧВАЩИ МАТЕРИАЛИ PEROVSKITE, КАКТО И ТЯХНОТО ИНТЕГРИРАНЕ В АРХИТЕКТУРИТЕ НА ТАНДЕМНИ УСТРОЙСТВА, КОИТО ИЗПОЛЗВАТ ПОВЕЧЕ ОТ ЕДИН ПОЛУПРОВОДЯЩ МАТЕРИАЛ. _x000D_ в PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) И WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLING THE LOW И WIDE bandgap ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES с ефективност > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Bulgarian)
4 August 2022
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SABIEX TIĠI ŻGURATA ENERĠIJA SIKURA, EFFIĊJENTI U NADIFA (ENERGIA SEGURA, EFICIENTE Y LIMPIA, L-UŻU TAL-KARBURANTI FOSSILI JEĦTIEĠ LI JITNAQQAS SOSTANZJALMENT, PERESS LI DAWN IWASSLU GĦALL-EMISSJONI TA’ GASSIJIET B’EFFETT TA’ SERRA U JIĠU MINN REĠJUNI MHUX SIGURI FID-DINJA. DAWN IL-PROĠETTI GĦANDHOM L-GĦAN LI JIKKONTRIBWIXXU GĦAT-TNAQQIS TAL-KONSUM TAL-FJUWILS FOSSILI BILLI JIŻVILUPPAW TAGĦMIR FOTOVOLTAJKU EFFIĊJENTI U BI PREZZ BAXX LI JIĠĠENERA ENERĠIJA RINNOVABBLI, U BILLI JIŻVILUPPAW SORSI TAD-DAWL EFFIĊJENTI LI JNAQQSU L-KONSUM TAL-ELETTRIKU. _x000D_ l-AIMS PROJECT GĦANDHOM DEVELOP PHOTOVOLTAIC U LIGHT-EMITTING DVIZZI FIL-MATERIALS tal-ABSORBER U L-EMITTURI FUQ INORGANIC JEW HYBRID ORGANIC-INORGANIC. DAN IL-MATERJAL PEROVSKITE GĦANDU BANDGAPS INTONABBLI LI JIPPERMETTU L-ĠENERAZZJONI TA ‘ASSORBITURI BANDGAP BAXXI U WIESGĦA U WKOLL EMITTENTI EFFIĊJENTI TAD-DAWL LI JKOPRU L-MEDDA KOLLHA VIŻIBBLI U QRIB IL-WAVELENGTH INFRARED. BARRA MINN HEKK, HUMA TA’ SPIŻA BAXXA U JISTGĦU JIĠU APPLIKATI BĦALA FILMS IRQAQ BL-UŻU TA’ PROĊESSI EKONOMIĊI KOMPATIBBLI MAL-PRODUZZJONI TA’ ŻONA KBIRA U VOLUM. _x000D_ kurrenti BEST perovskite SOLAR CELLS HAVE REACHED AN EFFICIENCY TA '22 % DWAR ŻVIŻA FUQ BISS FUQ BISS ONE perovskite ABSORBER li ARE PREPARAT MA METHOD LI MHUX KOMPLIBBLI MA LARGE PRODOZZJONI SCALE. Bl-użu TWO DIFFERENT perovskite ABSORBERS F’A TANDEM KONFFIGURAZZJONI SOLAR BELLS WITH effiċjenzi ABOVE 30 % CAN BE ACHIEVED, WHICH WOULD REVOLUZZJONIZZJONIZZJONIJIET TAGĦHOM L-SUQ MATERIALS ORGANIC (OLEDS) U L-BESTIR effiċjenzi ARE LIMITTI TO 60 LM/W MAINLY GĦANDHOM GĦANDHOM IL-LAKRU TAL-FEFIĊJENTI DIODES BLUE. Billi TUŻA MATERIALS HYBRID ma ‘ELECTRON DIRECT U HOLE rikombinazzjoni WE REACH HIGHER effiċjenzi LI GĦANDHOM IL-ĠENERAZZJONI ta’ l-EFFIĊJENZA GĦOLJA LOW KOST LIGHT SORS GĦAD-DISPLAY U SYSTEMs DAWL LI REDUZZJONI STRONGLY ENERGY CONSUMPTION._x000D_ L-OBJETTIVI MAIN id-DEVELOPMENT ta’:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP DIN FILM BLUE U WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP HAS REĊENTALI SHOWN SINGLE JUNCTION Perovskite SOLARskite CELLS PROĊESSIJIET PREPARATI KOMPLIBBLI MA LARGE PRODUZZJONI SCALE REACHing 20 % U ALSO PREPARA L-FIRST perovskite-perovskite TANDEM SOLAR CELLS BITH ABOVE VOC 2 VOLTS GĦAŻLA FUQ IL-KUMITAT NON-PERFECT bandgap KIFINAZZJONI AVINGONLYĠAN EFFIĊJENZA TA '18 %. IL-GRUPP TAGĦNA DAN L-AĦĦAR WERA WKOLL AKTAR MINN 60 LM/W GĦAL LEDS ĦODOR IBBAŻATI FUQ NANOPARTICLE PEROVSKITE. IŻDA BIEX IKOMPLU JTEJBU DAWN IŻ-ŻEWĠ TIPI TA ‘APPARAT, U JILĦQU L-GĦANIJIET 30 % ĊELLOLI SOLARI EFFIĊJENTI U 100 LM/W EFFIĊJENZA FL-APPARAT ABJAD LI JARMI D-DAWL, TITJIB PEROVSKITE ASSORBIMENT U EMISSJONIJIET MATERJALI HUMA MEĦTIEĠA KIF UKOLL L-INTEGRAZZJONI TAGĦHOM F’ARKITETTURI TAGĦMIR TANDEM LI JUŻAW AKTAR MINN MATERJALI SEMIKONDUTTURI WIEĦED. _x000D_ f’PARTIKOLTAR WE:_x000D_ DEVELOP LOW (1.2 EV) U WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFIĊJENT SINGLE JUNCTION SOLAR CELLS TUŻA LOW U WIDE bandgap ABSORBERS_x000D_ DETERMINE IL-PHYSICAL TAL-QLIGĦ tal-Perovskita SOLAR._x000D_D_ DEVELOP TANDEM DEVICES WITH effiċjenzi > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITI._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Maltese)
4 August 2022
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Para garantir uma energia segura, eficiente e limpa (ENERGIA SEGURA, EFICIENTE Y LIMPIA), é necessário reduzir substancialmente a utilização de combustíveis fósseis, uma vez que estes conduzem à emissão de gases com efeito de estufa e provêm de regiões inseguras do mundo. Este projecto tem por objectivo contribuir para a redução do consumo de combustíveis fósseis através do desenvolvimento de dispositivos fotovoltaicos eficientes e de baixo custo que gerem energia renovável e do desenvolvimento de fontes luminosas eficientes que diminuam o consumo de electricidade. _x000D_ O projecto tem por objectivo o desenvolvimento de dispositivos fotovoltáicos e de iluminação em que o absorvente e os emissores se baseiem em materiais perovskíticos orgânicos-inorgânicos inorgânicos ou híbridos. Estes materiais perovskíticos têm tampões móveis que permitem a geração de absorvedores de baixa e larga largura e também emissores de luz eficazes que cobrem toda a amplitude de ondulação visível e quase infringida. Além disso, são de baixo custo e podem ser aplicados como pequenos filtros que utilizam processos económicos compatíveis com grandes superfícies e produção de volume. _x000D_ AS MELHORES CÉLULAS SOLARES PEROVSKITAS EM CURSO ALCANÇARAM UMA EFICIÊNCIA DE 22 % NOS DISPOSITIVOS PARA PEQUENAS ZONAS COM BASE APENAS EM UM ABSÓRBER PEROVSKITE PREPARADO COM UM MÉTODO NÃO COMPATÍVEL COM A GRANDE PRODUÇÃO À ESCALA. Pode obter-se a utilização de dois absorventes perovskitas diferentes num mercado fotovoltáico com concentrações superiores a 30 %, o que permitiria revolucionar o mercado fotovoltáico._x000D_ Atualmente, os melhores LEDs brancos utilizam apenas materiais orgânicos (OLED) e as suas melhores eficiências estão limitadas a 60 lm/devem-se principalmente à falta de diodos azuis muito eficazes. BY USING HYBRID MATERIALS WITH DIRECT ELECTRON AND HOLE RECOMBINATION WE CAN REACH HIGHER EFFICIENCIES WHICH WILL ENABLE THE GENERATION OF HIGH EFFICIENCY LOW COST LIGHT SOURCES FOR DISPLAY AND LIGHTING SYSTEMS THAT STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ THE MAIN OBJECTIVES ARE THE DEVELOPMENT OF:_x000D_ 1) DEVELOP EFFICIENT PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE AND WHITE PEROVSKITE LIGHT-EMITTING DEVICES._x000D_ _x000D_ OUR GROUP HAS RECENTLY SHOWN SINGLE JUNCTION PEROVSKITE SOLAR CELLS PREPARED USING PROCESSES COMPATIBLE WITH LARGE SCALE PRODUCTION REACHING 20 % AND HAVE ALSO PREPARED THE FIRST PEROVSKITE-PEROVSKITE TANDEM SOLAR CELLS WITH A VOC ABOVE 2 VOLTS YET DUE TO NON-PERFECT BANDGAP COMBINATION HAVING ¿ONLY¿ AN EFFICIENCY OF 18 %. O NOSSO GRUPO JÁ DEMONSTROU MAIS DE 60 LM/W PARA LEDS VERDES À BASE DE PEROVSKITE NANOPARTICLE. YET TO FURTHER IMPROVE BOTH THESE TYPE OF DEVICES, AND REACH THE GOALS 30 % EFFICIENT SOLAR CELLS AND 100 LM/W EFFICIENCY IN WHITE LIGHT-EMITTING DEVICES, IMPROVED PEROVSKITE ABSORBING AND EMITTING MATERIALS ARE NEEDED AS WELL AS THEIR INTEGRATION IN TANDEM DEVICE ARCHITECTURES THAT USE MORE THAN ONE SEMICONDUCTING MATERIALS. _x000D_ IN PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) AND WIDE (1.8 EV) BANDGAP PEROVSKITE ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS USING THESE LOW AND WIDE BANDGAP ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE PEROVSKITE SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES WITH EFFICIENCIES > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE PEROVSKITE LEDS. (Portuguese)
4 August 2022
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FOR AT SIKRE EN SIKKER, EFFEKTIV OG REN ENERGI (¿ENERGIA SEGURA, EFICIENTE Y LIMPIA^), ER DET NØDVENDIGT AT REDUCERE ANVENDELSEN AF FOSSILE BRÆNDSTOFFER BETYDELIGT, DA DETTE FØRER TIL UDLEDNING AF DRIVHUSGASSER OG KOMMER FRA USIKRE REGIONER I VERDEN. DISSE PROJEKTER HAR TIL FORMÅL AT BIDRAGE TIL AT REDUCERE FORBRUGET AF FOSSILE BRÆNDSTOFFER VED AT UDVIKLE EFFEKTIVE OG BILLIGE SOLCELLEANLÆG, DER GENERERER VEDVARENDE ENERGI, OG VED AT UDVIKLE EFFEKTIVE LYSKILDER, DER REDUCERER ELFORBRUGET. _x000D_ PROJEKT FOR DEVELOP PHOTOVOLTAIC OG LIGHT-EMITTING DEVICEs I SVÆREN OG EMITTERS ANVENDELSE AF INORGANIC eller HYBRID ORGANIC-INORGANIC perovskite MATERIALS. DISSE PEROVSKITE MATERIALE HAR AFSTEMMELIGE BÅNDGAPS, DER GIVER MULIGHED FOR GENERERING AF LAVE OG BREDE BÅNDGAP ABSORBERERE OG OGSÅ EFFEKTIVE LYSDIODER DÆKKER HELE DET SYNLIGE OG NÆR INFRARØDE BØLGELÆNGDEOMRÅDE. DESUDEN ER DE AF LAVE OMKOSTNINGER OG KAN ANVENDES SOM TYNDE FILM VED HJÆLP AF ØKONOMISKE PROCESSER, DER ER KOMPATIBLE MED STORE AREAL- OG VOLUMENPRODUKTION. _x000D_ nuværende bedste perovskite SOLAR CELLS HAR Repareret nogen EFFICIENCY af 22 % på SMALL AREA DEVICES BASERET PÅ KUN én perovskite ABSORBER, der er blevet formidlet med en METHOD det er ikke kompatible med LARGE SCALE PRODUCTION. Brug af TWO DIFFERENT perovskite ABSORBERS i en TANDEM CONFIGURATION SOLAR CELLER med effektivitetsgevinster 30 % KAN være ACHIEVED, HVORFOR VILD REVOLUTIONISKE MARKET._x000D_ CURRENT BEDSTE FILM WHITE LEDSER KUN ORGANIC MARKET._x000D_ CURRENT BEST THIN FILM WHITE LEDSER KUN ORGANIC MATERIALS (OLEDS) OG DIR BEST effektivitetsgevinster er begrænset til 60 LM/W MAINLY DUE TIL LACK af mange EFFICIENT BLUE DIODES. Ved at bruge HYBRID MATERIALS med DIREKTRON og HOLE rekombination Vi KAN REACH HØJE effektiviseringer, som vil gøre det muligt for ham at få øje på, at det er muligt at få styr på, hvordan man kan opnå DISPLAY og LIGHTING SYSTEMER, som STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ THE MAIN OBJECTIVES._x000D_ det drejer sig om:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE and WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ Vores GROUP HAR SINGLE JUNCTION perovskite SOLAR CELLS PPARED USING PROCESSES COMPATIBLE MED LARGE SCALE PRODUCTION Reparation 20 % OG HAR ALSO PREPARED den første perovskite-perovskite TANDEM SOLAR CELLS med en VOC ABOVE 2 VOLTS YET DUE TIL IKKE-PERFECT bandgap KOMBINATION HAVING ¿ONLY¿AN EFFICIENCY af 18 %. VORES GRUPPE HAR FOR NYLIG OGSÅ DEMONSTRERET MERE END 60 LM/W FOR PEROVSKITE NANOPARTIKEL BASERET GRØNNE LYSDIODER. FOR YDERLIGERE AT FORBEDRE BEGGE DISSE TYPER ENHEDER OG NÅ MÅLENE 30 % EFFEKTIVE SOLCELLER OG 100 LM/W EFFEKTIVITET I HVIDE LYSEMITTERENDE ENHEDER ER DER BEHOV FOR BEDRE PEROVSKITEABSORBERENDE OG UDSENDENDE MATERIALER SAMT DERES INTEGRATION I TANDEM-ENHEDSARKITEKTURER, DER BRUGER MERE END ÉT HALVLEDENDE MATERIALE. _x000D_ I PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) OG WIDE (1,8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLSER OG WIDE bandgap ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES med effektivitet > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT WHITE perovskite LEDS. (Danish)
4 August 2022
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PENTRU A ASIGURA O ENERGIE SIGURĂ, EFICIENTĂ ȘI CURATĂ (ENERGIA SEGURA, EFICIENTE Y LIMPIA), UTILIZAREA COMBUSTIBILILOR FOSILI TREBUIE REDUSĂ SUBSTANȚIAL, DEOARECE ACESTEA CONDUC LA EMISII DE GAZE CU EFECT DE SERĂ ȘI PROVIN DIN REGIUNI NESIGURE DIN LUME. SCOPUL ACESTOR PROIECTE ESTE DE A CONTRIBUI LA REDUCEREA CONSUMULUI DE COMBUSTIBILI FOSILI PRIN DEZVOLTAREA DE DISPOZITIVE FOTOVOLTAICE EFICIENTE ȘI CU COSTURI REDUSE CARE GENEREAZĂ ENERGIE REGENERABILĂ ȘI PRIN DEZVOLTAREA UNOR SURSE DE LUMINĂ EFICIENTE CARE REDUC CONSUMUL DE ENERGIE ELECTRICĂ. _x000D_ AIME PROJECT pentru a DEVELOP PHOTOVOLTAIC ȘI LIGHT-EMITTING DEVICES în cazul în care ABSORBER ȘI EMITTERS au fost lovite pe materiile de perovskit iNORGANIC sau hibrid ORGANIC-INORGANIC. ACESTE MATERIALE PEROVSKITE AU BANDGAPS ACORDABILE CARE PERMIT GENERAREA DE AMORTIZOARE DE BANDĂ JOASĂ ȘI LARGĂ ȘI, DE ASEMENEA, EMIȚĂTOARE DE LUMINĂ EFICIENTE CARE ACOPERĂ ÎNTREAGA GAMĂ VIZIBILĂ ȘI APROAPE DE LUNGIMEA DE UNDĂ ÎN INFRAROȘU. ÎN PLUS, ACESTEA SUNT DE COSTURI REDUSE ȘI POT FI APLICATE CA FILME SUBȚIRI FOLOSIND PROCESE ECONOMICE COMPATIBILE CU PRODUCȚIA DE SUPRAFAȚĂ MARE ȘI VOLUM. _x000D_ curent cele mai bune perovskite SOLAR CELLS a atins o EFICIENȚA de 22 % pe o suprafață mică de VICȚII BASED numai pe un singur perovskit ABSORBRIE că acestea sunt PREPARED cu o metodă care nu este COMPATIBIL CU PRODUCȚIE SCARGE LARGE. Utilizarea TWO DIFFERENT perovskite ABSORBERS într-un TANDEM CONFIGURATION SOLAR CELLS cu eficiențe ABOVE 30 % pot fi luate în considerare, CARE VA REVOLUȚIIZĂ MARKET PHOTOVOLTAIC._x000D_ Cea mai bună cel mai bun mod de a folosi LED-uri pur și simplu ORGANIC MATERIALS (OLEDS) ȘI cele mai bune eficiențe sunt în libertate la 60 lm/W MAI DUMNEAVOASTRĂ LA LACK DE DESPRE DE FERICIENT BLUE DIODES. Prin UTILIZAREA MATERILOR HYBRID CU ELECTRONUL DIRECT ȘI Recombinarea HOLE WE CAN REACH HIGHER Eficiențe CARE VA VA ENABILARE GENERAREA LUMEI LOW EFFICIENȚE COST SURSE LIGHT pentru DISPLAY ȘI LIGHTING SYSTEME DE REDUCERE STRONGLY CONSUMPTION._x000D_ MAIN OBJECTIVES sunt DEZVOLTAREA:_x000D_ 1) DEVELOP EfICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE ȘI WHITE perovskite LIGHT-EMITTING DEVICES._x000D_ _x000D_ _x000D_ OUR GROUP HAS RECENTLY SHOWN SINGLE JUNCTION perovskite SOLAR CELLS PREPARED utilizarea PROCESURI COMPATIBIL CU LARGE PRODUCȚIE SCALE REACH 20 % ȘI A PREPARAT, de asemenea, primul TANDEM SOLAR perovskit perovskit cu un VOC ABOVE 2 VOLTURI DUE la NON-PERFECT Bandgap COMBINATION HAVING â EUR TMONLYAN EFFICIENCYY of 18 %. GRUPUL NOSTRU A DEMONSTRAT RECENT, DE ASEMENEA, MAI MULT DE 60 LM/W PENTRU LED-URI VERZI PE BAZĂ DE NANOPARTICULE PEROVSKITE. CU TOATE ACESTEA, PENTRU A ÎMBUNĂTĂȚI ÎN CONTINUARE ATÂT ACESTE TIPURI DE DISPOZITIVE, CÂT ȘI PENTRU A ATINGE OBIECTIVELE 30 % CELULE SOLARE EFICIENTE ȘI EFICIENȚĂ DE 100 LM/W ÎN DISPOZITIVELE ALBE EMIȚĂTOARE DE LUMINĂ, SUNT NECESARE MATERIALE ÎMBUNĂTĂȚITE DE ABSORBȚIE ȘI EMISIE DE PEROVSKIȚI, PRECUM ȘI INTEGRAREA ACESTORA ÎN ARHITECTURI DE DISPOZITIVE TANDEM CARE UTILIZEAZĂ MAI MULT DE UN MATERIAL SEMICONDUCTOR. _x000D_ în PARTICULAR WE WILL:_x000D_ DEVELOP LOW (1.2 EV) ȘI WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ DEVELOP EFFICIENT SINGLE JUNCTION SOLAR CELLS care utilizează aceste benzi și benzi de culoare ABSORBERS_x000D_ DETERMINE PHYSICALUL CELLS SOLAR perovskit._x000D_ DEVELOP TANDEM DEVICES cu eficiență > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICIENT LED-uri perovskite. (Romanian)
4 August 2022
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FÖR ATT GARANTERA SÄKER, EFFEKTIV OCH REN ENERGI (ENERGIA SEGURA, EFICIENTE Y LIMPIA) MÅSTE ANVÄNDNINGEN AV FOSSILA BRÄNSLEN MINSKAS AVSEVÄRT, EFTERSOM DESSA LEDER TILL UTSLÄPP AV VÄXTHUSGASER OCH KOMMER FRÅN OSÄKRA REGIONER I VÄRLDEN. DESSA PROJEKT SYFTAR TILL ATT BIDRA TILL ATT MINSKA FÖRBRUKNINGEN AV FOSSILA BRÄNSLEN GENOM ATT UTVECKLA EFFEKTIVA OCH BILLIGA SOLCELLSANORDNINGAR SOM GENERERAR FÖRNYBAR ENERGI OCH GENOM ATT UTVECKLA EFFEKTIVA LJUSKÄLLOR SOM MINSKAR ELFÖRBRUKNINGEN. _x000D_ PROJEKT AIMS TILL UTVECKLAR PHOTOVOLTAIC OCH LIGHT-EMITTING DEVICES I DEN ABSORBER OCH EMITTERS ÄR BASED ON INORGANIC ELLER HYBRID ORGANIC-INORGANIC perovskite MTERIALS. DESSA PEROVSKITMATERIAL HAR AVSTÄMBARA BANDGAP SOM MÖJLIGGÖR GENERERING AV LÅGA OCH BREDA BANDGAPABSORBENTER OCH ÄVEN EFFEKTIVA LJUSSTRÅLARE SOM TÄCKER HELA DET SYNLIGA OCH NÄRA INFRARÖDA VÅGLÄNGDSOMRÅDET. DESSUTOM HAR DE LÅGA KOSTNADER OCH KAN ANVÄNDAS SOM TUNNA FILMER MED HJÄLP AV EKONOMISKA PROCESSER SOM ÄR KOMPATIBLA MED PRODUKTION AV STORA YTOR OCH VOLYMER. _x000D_ nuvarande BÄSTA perovskite SOLAR CELLS HAR EN EFFICIENCY av 22 % PÅ små REA DEVICES BASED ONLY ENDAST EN perovskite ABSORBER SOM ÄR PREPARED MED EN METHOD DETTA DETTA SOM INTE ÄR MEDDELANDE SCALE PRODUKTION. Med hjälp av två DIFFERENT perovskite ABSORBERS I en TANDEM CONFIGURATION SOLAR CELLS MED Efficiencies ABOVE 30 % CAN vara ACHIEVEDAD, MED DENNA REOLUTIONISE PHOTOVOLTAIC MARKET._x000D_ CURRENT BÄSTA DIN FILM VIT LEDS ANVÄNDEN ORGANIC MATERIALS (OLEDS) och DIR bästa effektivitet är LIMITED till 60 LM/W MAINLY DUE till LACK av mycket EFFICIENT BLUE DIODES. Genom att använda HYBRID MATERIALS MED DIREKT ELECTRON OCH HOLE rekombination VI CAN REACH HÖGER effektivitet som kommer att påverka GENERATIONen av stora EFFICIENCY LOW COST LIGHT SOURCES FÖR DISPLAY och LIGHTING SYSTEMS SOM STRONGLY REDUCE ENERGY CONSUMPTION._x000D_ MAIN OBJECTIVES ÄR UTVECKLING AV:_x000D_ 1) DEVELOP EFFICIENT perovskite-perovskite TANDEM SOLAR CELLS._x000D_ 2) DEVELOP THIN FILM BLUE OCH VIHITE perovskite LIGHT-EMITING DEVICES. ANVÄNDNINGSPROCESSER COMPATIBLE MED STORA SCALE PRODUKTION Reaching 20 % OCH HAVE ALSO PREPARED THE FIRST perovskite-perovskite TANDEM SOLAR CELLS med en VOC ABOVE 2 VOLTS YET DUE to NON-PERFEKT bandgap KOMBINATION HAVING ENDAST ENDAST EFFICIENCY på 18 %. VÅR GRUPP HAR NYLIGEN OCKSÅ VISAT MER ÄN 60 LM/W FÖR PEROVSKITE NANOPARTIKELBASERADE GRÖNA LYSDIODER. MEN FÖR ATT YTTERLIGARE FÖRBÄTTRA BÅDE DENNA TYP AV ENHETER, OCH NÅ MÅLEN 30 % EFFEKTIVA SOLCELLER OCH 100 LM/W EFFEKTIVITET I VITA LJUSAVGIVANDE ENHETER, BEHÖVS FÖRBÄTTRADE PEROVSKITE ABSORBERANDE OCH AVGIVANDE MATERIAL SAMT DERAS INTEGRERING I TANDEM ENHET ARKITEKTURER SOM ANVÄNDER MER ÄN ETT HALVLEDARMATERIAL. _x000D_ in PARTICULAR VIMER:_x000D_ DEVELOP LOW (1.2 EV) och WIDE (1.8 EV) bandgap perovskite ABSORBERS_x000D_ UTVECKLING EFFICTIENT SINGLE JUNCTION SOLAR CELLS ANVÄNDA DENNA LOW OCH WIDE bandgap ABSORBERS_x000D_ DETERMINE THE PHYSICAL OF THE Perovskite SOLAR CELLS._x000D_ DEVELOP TANDEM DEVICES MED effektivitet > 30 %._x000D_ DEVELOP HIGH EFFICIENCY BLUE LIGHT-EMITTING PEROVSKITES._x000D_ DEVELOP HIGH EFFICIENCY BLUE PEROSVKITE LEDS._x000D_ DEVELOP EFFICICIENT WHITE perovskite LEDS. (Swedish)
4 August 2022
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Paterna
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20 December 2023
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Identifiers
MAT2017-88821-R
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