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dc.contributor.author Gelesky, Marcos Alexandre
dc.contributor.author Scheeren, Carla Weber
dc.contributor.author Foppa, Lucas
dc.contributor.author Pavan, Flávio André
dc.contributor.author Dias, Silvio Luís Pereira
dc.contributor.author Dupont, Jairton
dc.date.accessioned 2014-09-18T11:53:46Z
dc.date.available 2014-09-18T11:53:46Z
dc.date.issued 2009
dc.identifier.citation GELESKY, Marcos Alexandre et al. Metal nanoparticle/Ionic liquid/cellulose: new catalytically active membrane materials for hydrogenation reactions. Biomacromolecules, v. 10, n. 7, p. 1888–1893, 2009. Disponível em: <http://pubs.acs.org/doi/pdf/10.1021/bm9003089>. Acesso em: 30 jul. 2014. pt_BR
dc.identifier.issn 1525-7797
dc.identifier.uri http://repositorio.furg.br/handle/1/4576
dc.description.abstract Transition metal-containing membrane films of 10, 20, and 40 μm thickness were obtained by the combination of irregularly shaped nanoparticles with monomodal size distributions of 4.8 ( 1.1 nm (Rh(0)) and 3.0 ( 0.4 nm (Pt(0)) dispersed in the ionic liquid (IL) 1-n-butyl-3-methylimidazolium bis(trifluoromethane sulfonyl)imide (BMI · (NTf)2) with a syrup of cellulose acetate (CA) in acetone. The Rh(0) and Pt(0) metal concentration increased proportionally with increases in film thickness up to 20 μm, and then the material became metal saturated. The presence of small and stable Rh(0) or Pt(0) nanoparticles induced an augmentation in the CA/IL film surface areas. The augmentation of the IL content resulted in an increase of elasticity and decrease in tenacity and toughness, whereas the stress at break was not influenced. The introduction of IL probably causes an increase in the separation between the cellulose macromolecules that results in a higher flexibility, lower viscosity, and better formability of the cellulose material. The nanoparticle/IL/CA combinations exhibit an excellent synergistic effect that enhances the activity and durability of the catalyst for the hydrogenation of cyclohexene. The nanoparticle/IL/cellulose acetate film membranes display higher catalytic activity (up to 7353 h-1 for the 20 μm film of CA/IL/Pt(0)) and stability than the nanoparticles dispersed only in the IL. pt_BR
dc.language.iso eng pt_BR
dc.rights restrict access pt_BR
dc.title Metal nanoparticle/Ionic liquid/cellulose: new catalytically active membrane materials for hydrogenation reactions pt_BR
dc.type article pt_BR
dc.identifier.doi 10.1021/bm9003089 pt_BR


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