Pd micro-nanoparticles electrodeposited on graphene/polyimide membrane for electrocatalytic oxidation of formic acid

“…Flowerlike nanofillers are usually characterized by many nanosheets connected to each other, and they are very good at forming well-bonded interfaces between fillers and polymer, as they have many superior features than the conventional lamellar nanofillers including pretty rough surfaces, large specific areas and expanded basal spacings. [9] A few kinds of flower-like nanofillers have been utilized as polymer additives to effectively boost the catalytic performances, [10,11] absorption features, [12,13] thermal and fire resistances [14] as well as surface characteristics, [15,16] presenting a giant potential in designing and preparing the polymeric nanocomposites with good comprehensive properties.…”

Simultaneously enhanced friction and wear resistances of epoxy nanocomposites modified by nickel phyllosilicate nanoflowers under wet sliding conditions

“…Flowerlike nanofillers are usually characterized by many nanosheets connected to each other, and they are very good at forming well-bonded interfaces between fillers and polymer, as they have many superior features than the conventional lamellar nanofillers including pretty rough surfaces, large specific areas and expanded basal spacings. [9] A few kinds of flower-like nanofillers have been utilized as polymer additives to effectively boost the catalytic performances, [10,11] absorption features, [12,13] thermal and fire resistances [14] as well as surface characteristics, [15,16] presenting a giant potential in designing and preparing the polymeric nanocomposites with good comprehensive properties.…”

Simultaneously enhanced friction and wear resistances of epoxy nanocomposites modified by nickel phyllosilicate nanoflowers under wet sliding conditions

“…Zhang et al [81] [32,73,[85][86][87]. Os átomos carbono têm sido investigados como suporte para os eletrocatalisadores utilizados para a oxidação eletroquímica do ácido fórmico [88,89].…”

Estudo da oxidação eletroquímica do ácido fórmico utilizando eletrocatalisadores Pd/C-Sb2O5.SnO2, PdAu/C-Sb2O5.SnO2, PdIr/C-Sb2O5.SnO2 e PdAulr/C-Sb2O5.SnO2 preparados via redução por borohidreto de sódio

Analyses and insights into 2D crystallite architected membrane electrode assemblies for polymer electrolyte fuel cells