2008
DOI: 10.1039/b806453a
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Green synthesis of 1–2 nm gold nanoparticles stabilized by amine-terminated ionic liquid and their electrocatalytic activity in oxygen reduction

Abstract: Stable gold nanoparticles with average size 1.7 nm synthesized by an amine-terminated ionic liquid showed enhanced electrocatalytic activity and high stability.Electrocatalytically active gold nanoparticles are enjoying increasing applications in electrochemistry, electroanalysis and bioelectronics. 1 Catalytic activity has been shown to depend strongly on the gold oxidation state, nanoparticle size and surface properties. 2 For example, 1.3 nm gold nanoparticles exhibited superior activity in catalysis of aer… Show more

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Cited by 126 publications
(58 citation statements)
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“…The lattice fringes can be clearly observed in high-resolution TEM (HR-TEM) images (Fig. 3d, f), confirming that these materials have high crystallinity [30]. These results indicate that the entire particle is crystalline with well-ordered mesopores penetrating through the microporous framework [31].…”
Section: Morphologies Of Hierarchical Porous Zif-8supporting
confidence: 65%
“…The lattice fringes can be clearly observed in high-resolution TEM (HR-TEM) images (Fig. 3d, f), confirming that these materials have high crystallinity [30]. These results indicate that the entire particle is crystalline with well-ordered mesopores penetrating through the microporous framework [31].…”
Section: Morphologies Of Hierarchical Porous Zif-8supporting
confidence: 65%
“…[3][4][5] However, Au NPs in catalytic reactions oen show a strong tendency to aggregate because of their high surface energies, leading to the loss of their initial activities. 6 Hence, core-shell architectures with a noble metal core preserved by an outer shell have recently attracted a great deal of attention for catalysis due to the following structural advantages: (a) the shell can hinder the aggregation of neighboring cores 7,8 and (b) remarkable catalytic activity may be achieved due to the unique identity of the shell or the interaction of the shell and the core.…”
mentioning
confidence: 99%
“…Additionally, Au nanoparticles were stabilized by using a zwitterionic imidazolium sulfonate-terminated thiol (Tatumi & Fujihara, 2005), and Au nanoparticles and Pd nanowires could be prepared by using a thiol functionalized IL, 1-methyl-3-(2'-mercaptoacetoxyethyl) imidazolium chloride . Similarly, nitrile-functionalized (Zhao et al, 2004;Chiappe et al, 2006;Fei et al, 2007) and amine-functionalized (Wang et al, 2008) ILs were also used towards metal nanoparticles stabilization, and superior ability of nitrile-functionalized ILs over nonfunctionalized ILs was demonstrated in this particular context (Zhao et al, 2004;Chiappe et al, 2006;Fei et al, 2007). Since synthesis of thiol-and nitrile-functionalized ILs usually involves hazardous and odorous raw materials and multiple synthesis steps, other functionalized ILs such as N-(2-hydroxyethyl)-N-methylmorpholinium) tetrafluoroborate {[HEMMor] [BF 4 ]} were prepared using more environmentally-benign synthesis and utilized for the synthesis of 4.3 nm Au nanoparticles .…”
Section: Metal Nanoparticles Synthesis In Ils Using "Task-specific" Ilsmentioning
confidence: 99%