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Figueiredo, J.L.

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Publications

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• academic article

  • The influence of structure and surface chemistry of carbon materials on the decomposition of hydrogen peroxide.  Carbon.  62:97-108. 2013
  • Platinum catalysts supported on MWNT for catalytic wet air oxidation of nitrogen containing compounds.  Catalysis Today.  102-103:101-109. 2005
  • CWAO of Butyric Acid Solutions: Catalyst Deactivation Analysis.  Ind. Eng. Chem. Res..  43:1216-1221. 2004
  • A new OMCVD iridium precursor for thin film deposition.  Chemical Vapor Deposition.  7:59-62. 2001
  • Catalytic wet air oxidation of low molecular weight carboxylic acids using a carbon supported platinum catalyst 2000

• chapter

  • Oxidação Catalítica por Via Húmida no Tratamento de Águas Residuais 2001
  • Oxidação catalítica por via húmida no tratamento de águas residuais.  235-240. 1998

• conference paper

  • Catalytic wet peroxide oxidation with modified carbon nanotubes.  125. 2018
  • Hybrid magnetic graphitic nanocomposites for catalytic wet peroxide oxidation applications.  181. 2017
  • Core-shell nanocomposites prepared by hierarchical co-assembly: the role of the carbon shell in catalytic wet peroxide oxidation processes.  118-119. 2016
  • Desenvolvimento de xerogéis de carbono magnéticos para o processo de oxidação catalítica com peróxido de hidrogénio 2016
  • Development of magnetic carbon xerogels for catalytic wet peroxide oxidation.  82. 2016
  • Empleo de carbones activados procedentes de lignina como catalizadores no metálicos en la oxidación húmeda con peróxido de hidrogeno 2016
  • Lignin-derived carbon materials as catalysts for wet peroxide oxidation 2016
  • Metal-free catalysts derived from lignin for efficient wet peroxide oxidation.  30. 2016
  • Surface of carbon nanotubes for wet peroxide oxidation.  30-30. 2016
  • Carbon nanotubes as catalysts for wet peroxide oxidation: structure-reactivity relationships.  182. 2015
  • Development of magnetically recoverable carbon nanocomposites for the catalytic wet peroxide oxidation of 4-nitrophenol solutions.  191. 2015
  • Hydrophobicity in catalysts for wet peroxide oxidation 2015
  • Magnetic N-doped and undoped carbon nanotubes as catalysts for wet peroxide oxidation.  101. 2015
  • The influence of carbon material properties on the efficiency of catalytic wet peroxide oxidation processes.  184. 2015
  • Carbon based materials for photocatalytic solar applications in water treatment 2014
  • Catalytic wet peroxide oxidation of highly concentrated 4-nitrophenol solutions using metal-free graphene-based materials.  71. 2014
  • Graphene-based materials in catalytic wet peroxide oxidation 2014
  • Key parameters when developing carbonaceous materials for catalytic wet peroxide oxidation.  45. 2014
  • Carbon nanotubes as base materials for water treatment processes 2013
  • Development of glycerol-based carbon materials for environmental catalytic applications in advanced oxidation processes 2013
  • Glycerol-based carbon materials for the catalytic wet peroxide oxidation process.  90-90. 2013
  • Nanotubos de carbono para processos de tratamento de águas.  112. 2013
  • Síntese de novos materiais de carbono a partir de glicerol para aplicação em processos de oxidação catalítica com peróxido de hidrogénio.  193. 2013
  • The influence of surface chemistry of activated carbons on the selective decomposition of hydrogen peroxide 2013
  • Towards the development of water purification technologies using carbon materials and metal oxides.  99. 2013
  • Carbon-based materials as catalysts in advanced oxidation processes for water treatment.  44-45. 2012
  • Activated carbons treated with sulphuric acid for degradation of trinitrophenol by catalytic wet air oxidation.  108. 2011
  • Adsorção de EDTA em carvão activado.  168. 2011
  • Mechanistic insights into catalytic wet peroxide oxidation over activated carbons treated with sulfuric acid.  83. 2010
  • Carbon aerogel supported platinum catalysts for selective hydrogenation of cinnamaldehyde 2008
  • Carbon xerogel supported noble metal catalysts for fine chemical applications.  V-107-V-114. 2008
  • Photodeposition of Pt nanoparticles on Ce-Ti-O.  90-90. 2008
  • Preparation of highly mesoporous carbon catalysts for wet oxidation of aniline.  93-93. 2008
  • Carbon xerogel as catalytic support for noble metal based selective hydrogenation reactions.  207-210. 2007
  • High temperature activation of noble metal catalysts supported on carbon multi-walled nanotubes for selective hydrogenation of unsaturated aldehydes 2007
  • Textural and chemical properties of carbon xerogels for the catalytic wet air oxidation of aniline.  237-238. 2007
  • Catalytic Properties of Carbon Xerogels for Wet Oxidation of Aniline.  195. 2006
  • Catalytic wet air oxidation of olive mill wastewater 2006
  • Aplicación de MWNT a aguas residuales de alta carga orgánica mediante CWAO.  65-66. 2005
  • Aplicação do processo de oxidação catalítica por via húmida ao tratamento de efluentes de lagares de azeite.  133-136. 2005
  • Catalytic wet air oxidation of aniline on transition metal modified MCM-41 catalysts.  149-150. 2005
  • Estudio cinético en la oxidacion catalítica de anilina con catalizadores de platino soportado en carbon activado.  295-296. 2005
  • Supported platinum catalysts prepared by photochemical deposition 2005
  • The challenges of treating high strength wastewaters: CWAO using MWNT supported ruthenium catalysts 2005
  • Carbon nanotubes and nanofibers: long term involvement and recent applications 2004
  • Catalisadores de platina suportada em materiais de carbono com diferentes propriedades de adsorção 2004
  • Nanotubos de carbono como suportes para catalisadores de platina 2004
  • Oxidação Catalítica por Via Húmida: Uma Tecnologia para o Tratamento de Efluentes Líquidos de Elevada Carga Orgânica 2004
  • Platinum catalysts supported on MWNT for liquid phase degradative oxidation of nitrogen containing compounds 2004
  • Ruthenium catalysts supported on multi walled carbon nanotubes for the catalytic wet air oxidation of aniline 2004
  • Some aspects of the use of carbon in catalysis 2004
  • Oxidação catalítica por via húmida da anilina sobre catalisadores de platina suportada em diferentes materiais de carbono.  105-106. 2003
  • Pt/C e Ir/C: Dois Sistemas Muito Eficientes na Oxidação Catalítica por Via Húmida de Poluentes Orgânicos.  1456-1461. 2002
  • Catalytic wet air oxidation of butyric acid solutions using carbon supported iridium catalysts.  113-114. 2001
  • Catalytic wet air oxidation of organic pollutants in waste waters.  291-298. 2001
  • Kinetics for catalytic wet air oxidation of butyric acid 2001
  • Tetracarbonyl bis(m-(2-methyl-2-propane-thiolato))diiridium): a new CVD iridium precursor for thin film deposition on carbon.  60-61. 2001
  • CWAO de poluentes orgânicos usando catalisadores metálicos suportados em carvão activado 2000
  • Oxidação Catalítica em Fase Líquida de Compostos Orgânicos.  709-710. 2000
  • [Ir(m-SC(CH3)3)(CO)2]2: um novo precursor de irídio para a produção de filmes por OMCVD sobre substratos de grafite 2000
  • Catalytic wet air oxidation of butyric acid 1999
  • Degradação oxidativa do ácido butírico em solução.  203-204. 1999
  • Waste water catalytic wet air oxidation using carbon supported patinum as a catalyst 1999
  • Determinação da dispersão metálica de catalisadores Pt/C por quimisorção/desorção de H2.  125-128. 1998
  • Oxidação catalítica em fase líquida de ácidos carboxílicos de baixo peso molecular 1998

• document

  • Empleo de carbones activados procedentes de lignina como catalizadores no metálicos en la oxidación húmeda con peróxido de hidrogeno 2016

• journal article

  • Carbon nanotubes as catalysts for wet peroxide oxidation: The effect of surface chemistry.  Catalysis Today. 332-340. 2020
  • Hybrid magnetic graphitic nanocomposites for catalytic wet peroxide oxidation applications.  Catalysis Today. 184-191. 2017
  • Hybrid magnetic graphitic nanocomposites towards catalytic wet peroxide oxidation of the liquid effluent from a mechanical biological treatment plant for municipal solid waste.  Applied Catalysis B: Environmental. 645-657. 2017
  • Lignin-based activated carbons as metal-free catalysts for the oxidative degradation of 4-nitrophenol in aqueous solution.  Applied Catalysis B: Environmental. 372-378. 2017
  • The role of cobalt in bimetallic iron-cobalt magnetic carbon xerogels developed for catalytic wet peroxide oxidation.  Catalysis Today. 66-75. 2017
  • Catalytic wet peroxide oxidation: A route towards the application of hybrid magnetic carbon nanocomposites for the degradation of organic pollutants. A review.  Applied Catalysis B: Environmental. 428-460. 2016
  • Role of Nitrogen Doping on the Performance of Carbon Nanotube Catalysts: A Catalytic Wet Peroxide Oxidation Application.  ChemCatChem. 2068-2078. 2016
  • Development of glycerol-based metal-free carbon materials for environmental catalytic applications.  Catalysis Today. 61-66. 2015
  • Graphene-based materials for the catalytic wet peroxide oxidation of highly concentrated 4-nitrophenol solutions.  Catalysis Today. 204-212. 2015
  • Removal of 2-nitrophenol by catalytic wet peroxide oxidation using carbon materials with different morphological and chemical properties.  Applied Catalysis B: Environmental. 356-362. 2013
  • The influence of structure and surface chemistry of carbon materials on the decomposition of hydrogen peroxide.  Carbon. 97-108. 2013
  • Degradation of trinitrophenol by sequential catalytic wet air oxidation and solar TiO 2 photocatalysis.  Biochemical Engineering Journal. 634-640. 2011
  • The role of activated carbons functionalized with thiol and sulfonic acid groups in catalytic wet peroxide oxidation.  Applied Catalysis B: Environmental. 390-397. 2011
  • Carbon xerogel supported noble metal catalysts for fine chemical applications.  Catalysis Today. 358-364. 2010
  • Pt nanoparticles supported over Ce-Ti-O: The solvothermal and photochemical approaches for the preparation of catalytic materials.  Journal of Nanoparticle Research. 121-133. 2010
  • Catalytic properties of carbon materials for wet oxidation of aniline.  Journal of Hazardous Materials. 420-426. 2008
  • Wet air oxidation of nitro-aromatic compounds: Reactivity on single- and multi-component systems and surface chemistry studies with a carbon xerogel.  Applied Catalysis B: Environmental. 75-86. 2008
  • Catalytic wet air oxidation of olive mill wastewater.  Catalysis Today. 254-259. 2007
  • Carbon nanotube supported ruthenium catalysts for the treatment of high strength wastewater with aniline using wet air oxidation.  Carbon. 2384-2391. 2006
  • Platinum catalysts supported on MWNT for catalytic wet air oxidation of nitrogen containing compounds.  Catalysis Today. 2005
  • Transition metal (Cu, Cr, and V) modified MCM-41 for the catalytic wet air oxidation of aniline.  Microporous and Mesoporous Materials. 287-294. 2005
  • CWAO of butyric acid solutions: catalyst deactivation analysis.  1216-1221. 2004
  • Carbon nanotubes and xerogels as supports of well-dispersed Pt catalysts for environmental applications.  Applied Catalysis B: Environmental. 175-182. 2004
  • Carbon supported iridium catalysts in the catalytic wet air oxidation of carboxylic acids: kinetics and mechanistic interpretation.  Journal of Molecular Catalysis A: Chemical. 47-60. 2002
  • Catalytic wet air oxidation of butyric acid solutions using carbon supported iridium catalysts.  Catalysis Today. 23-28. 2002
  • A new OMCVD iridium precursor for thin film deposition.  Chemical Vapor Deposition. 59-62. 2001
  • Catalytic wet air oxidation of low molecular weight carboxylic acids using carbon supported platinum catalyst.  Applied Catalysis B: Environmental. L217-L223. 2000

Contact

full name

• J.L. Figueiredo