Mostrando 10 resultados de: 11
Filtros aplicados
Publisher
Advanced Energy Materials(1)
Advanced Materials(1)
Angewandte Chemie - International Edition(1)
Chemical Communications(1)
Energies(1)
Área temáticas
Física aplicada(8)
Ingeniería y operaciones afines(4)
Química inorgánica(2)
Economía de la tierra y la energía(1)
Imprenta y actividades conexas(1)
Área de conocimiento
Ciencia de materiales(8)
Energía(7)
Fotovoltaica(7)
Electroquímica(1)
Energía renovable(1)
Origen
google(1)
Formation of porous SnS nanoplate networks from solution and their application in hybrid solar cells
ArticleAbstract: Herein, we present a facile solution-based route towards nanostructured, hybrid absorber layers basePalabras claves:Autores:Gury L., Haque S.A., Luis Martínez, Rath T., Sanchez-Molina I.Fuentes:scopusNear IR-sensitive, non-toxic, polymer/nanocrystal solar cells employing Bi <inf>2</inf>S <inf>3</inf> as the electron acceptor
ArticleAbstract:Palabras claves:Autores:Bernechea M., Konstantatos G., Luis Martínez, Pelayo Garcia De Arquer F.Fuentes:scopusHeterovalent cation substitutional doping for quantum dot homojunction solar cells
ArticleAbstract: Colloidal quantum dots have emerged as a material platform for low-cost high-performance optoelectroPalabras claves:Autores:Diedenhofen S.L., Konstantatos G., Luis Martínez, Magén C., Pelayo Garcia De Arquer F., Rath A.K., So D., Stavrinadis A.Fuentes:scopusHybrid solution-processed bulk heterojunction solar cells based on bismuth sulfide nanocrystals
ArticleAbstract: High efficiency organic and hybrid solar cells create demand for novel electron acceptor materials tPalabras claves:Autores:Bernechea M., Diedenhofen S.L., Higuchi S., Konstantatos G., Luis Martínez, Stavrinadis A., Tajima K.Fuentes:scopusImproved electronic coupling in hybrid organic-inorganic nanocomposites employing thiol-functionalized P3HT and bismuth sulfide nanocrystals
ArticleAbstract: In this study, we employ a thiol-functionalized polymer (P3HT-SH) as a leverage to tailor the nanomoPalabras claves:Autores:Bernechea M., Diedenhofen S.L., Haque S.A., Higuchi S., Konstantatos G., Luis Martínez, Maclachlan A.J., Miller N.C., Nelson J., Stavrinadis A., Sweetnam S., Tajima K.Fuentes:scopusMethodology to Determine the Management of Demand in Recharging Electric Vehicles in Vertically Integrated Markets Includes Photovoltaic Solar Generation
ArticleAbstract: The high penetration of photovoltaic solar generation and electric vehicles in developing countriesPalabras claves:demand management, Electric vehicles, Electricity market, Optimization, Photovoltaic solar energyAutores:Alvarez-Bel C., Diego Morales-Jadan, Hernán Quito, Luis Martínez, Marco Toledo-Orozco, W. A. QuizhpiFuentes:googlescopusUltra thin nickel transparent electrodes
Conference ObjectAbstract: Transparent electrodes made of ultra thin metals have recently been demonstrated with performances cPalabras claves:Autores:Benchabane S., Giurgola S., Lucchi F., Luis Martínez, Pruneri V., Rodriguez A., Vergani P.Fuentes:scopusSolution-processed heterojunction solar cells based on p-type PbS quantum dots and n-type Bi <inf>2</inf>S <inf>3</inf> Nanocrystals
ArticleAbstract: Bi 2S 3 nanocrystals are employed as an n-type, non-toxic, inorganic, solution-processed semiconductPalabras claves:bismuth sulfide, heterojunctions, Nanocrystals, non-toxic materials, p-n junctions, quantum dots, solar cells, solution processingAutores:Bernechea M., Konstantatos G., Luis Martínez, Rath A.K.Fuentes:scopusSolution-processed inorganic bulk nano-heterojunctions and their application to solar cells
ArticleAbstract: In the last decade, solution-processed quantum dot/nanocrystal solar cells have emerged as a very prPalabras claves:Autores:Bernechea M., Konstantatos G., Luis Martínez, Osmond J., Pelayo Garcia De Arquer F., Rath A.K.Fuentes:scopusStable transparent Ni electrodes
ArticleAbstract: We have deposited ultrathin (<10 nm) Ni films (UTMFs) on a dielectric substrate with high uniformityPalabras claves:Autores:Ghosh D., Giurgola S., Luis Martínez, Pruneri V., Vergani P.Fuentes:scopus