Mostrando 10 resultados de: 15
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scopus(15)
Chemical Modification of Agro-Industrial Waste-Based Bioadsorbents for Enhanced Removal of Zn(II) Ions from Aqueous Solutions
ArticleAbstract: Contamination of water by heavy metals is a major environmental concern due to the potential ecologiPalabras claves:Adsorption, Fruit peels, Heavy metal removal, kinetics, Wastewater treatmentAutores:Cristina E. Almeida-Naranjo, David Castro, Mariá Belén Aldás, Nelly M. Rosas-Laverde, Pruna A.I., Victor H. GuerreroFuentes:scopusAdsorptive removal of chromium (VI) from synthetic waters using magnetic lignocellulosic composites
Conference ObjectAbstract: The removal of heavy metals from water is one of the major challenges that humanity must address toPalabras claves:Autores:Christopher Asimbaya, Debut Alexis, Nelly M. Rosas-Laverde, Salomé Galeas, Tanya Medina-Espinosa, Victor H. GuerreroFuentes:scopusGraphene Oxide Aerogels for Oil Spills and Organic Solvents Removal
Book PartAbstract: The technological advances also come with a drawback in the air and water pollution. Different absorPalabras claves:Absorption capacity, graphene aerogels, oil spillAutores:Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopusGraphene oxide-assisted morphology and structure of electrodeposited ZnO nanostructures
ArticleAbstract: In this paper, ZnO electrodeposition was studied with the presence of graphene oxide (GO) exploitedPalabras claves:Electrodeposition, Graphene oxide, Structure-directing agent, znoAutores:Mataix D.B., Nelly M. Rosas-Laverde, Pruna A.I., Pullini D.Fuentes:scopusGraphene oxide-polypyrrole coating for functional ceramics
ArticleAbstract: Ceramic substrates were metallized with a Ni-Mo-P electroless coating and further modified with a poPalabras claves:ceramic, Electrodeposition, Graphene oxide, NiMoP electroless deposition, Polypyrrole, supercapacitorAutores:Mataix D.B., Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopusElectrodeposition of zno/cu<inf>2</inf>o heterojunctions on ni-mo-p electroless coating
ArticleAbstract: Electroless Ni-Mo-P coatings were deposited onto ceramic tiles in order to be employed as electrodesPalabras claves:Ceramic substrate, Cu O 2, Electrodeposition, Electroless coating, Ni-Mo-P, znoAutores:Busquets-Mataix D., Cembrero J., Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopusELECTRODEPOSITION OF ZNO NANOSTRUCTURED FILMS FOR PHOTOVOLTAICS AND PHOTOELECTROCHEMICAL SENSING
Book PartAbstract: ZnO nanomaterials have been vastly researched for functional devices thanks to favourable propertiesPalabras claves:Electrodeposition, photoelectrochemical sensing, photovotaics, znoAutores:Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopusEffect of deposition parameters on electrochemical properties of polypyrrole-graphene oxide films
ArticleAbstract: Graphene oxide (GO)-modified polypyrrole (PPy) coatings were obtained by electrochemical methods inPalabras claves:Capacitance, Electrodeposition, Graphene oxide, PolypyrroleAutores:Mataix D.B., Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopusOptimizing Electroless Plating of Ni–Mo–P Coatings Toward Functional Ceramics
ArticleAbstract: Ni–Mo–P coatings are obtained at the surface of ceramic substrate by electroless deposition using paPalabras claves:ceramic, Electroless plating, Ni–Mo–P, Solar cellAutores:Cembrero J., Nelly M. Rosas-Laverde, Orozco-Messana J., Pascual M., Pruna A.I.Fuentes:scopusImproving electrochemical properties of polypyrrole coatings by graphene oxide and carbon nanotubes
ArticleAbstract: Nanostructured polypyrrole coating was applied on carbon paper via simple dip-coating and electrochePalabras claves:carbon nanotubes, Electrodeposition, Graphene oxide, Polypyrrole, supercapacitorAutores:Mataix D.B., Nelly M. Rosas-Laverde, Pruna A.I.Fuentes:scopus