The Quest for Shape Control: A History of Gold Nanorod Synthesis

Lohse, Samuel E.; Murphy, Catherine J.

doi:10.1021/cm303708p

Cited by 597 publications

(664 citation statements)

References 89 publications

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“…Current synthetic advances offer a rational design of sizes (~1 to 100 nm), shapes and morphologies (spheres, rods, wires, tubes, cubes and polyhedrons) of these noble metal nanocatalysts [5][6][7][8][9]. The effect of particle sizes, topologies and surface crystal facets on catalytic activity of noble metal nanocatalysts has been well documented and reviewed [1,4,8,[10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Engineering Surface Ligands of Noble Metal Nanocatalysts in Tuning the Product Selectivity

Liu

Duay

et al. 2017

Catalysts

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Nanosized noble metal catalysts supported on high-surface-area support are of great importance for numerous industrial chemical processes to mediate reaction pathways in heterogeneous catalysis. Control of surface area and surface energy of nanocatalysts is a key to achieving high activity and selectivity for desired products. In the past decade, new synthetic methodologies for noble metal nanocatalysts with well-defined nanostructures have been developed. Wet-chemical preparation of noble metal nanocatalysts usually involves the utilization of specific surfactants that can bind the surface of nanocatalysts as ligands to control the nanostructures and prevent the coalescence of nanocatalysts. Surface ligands that form a densely packed self-assembled monolayer offer a facile solution to tune the surface energy of nanocatalysts, and, therefore, the selectivity of products. In this minireview, we highlight the recent advances in understanding the role of surface ligands in control over the product selectivity in a multi-product reaction using noble metal nanocatalysts. The review is outlined according to the three possible roles of surface ligands, including steric effect, orientation effect and surface charge state, in varying the adsorption/binding of reactants/transition states.

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Section: Introductionmentioning

confidence: 99%

Engineering Surface Ligands of Noble Metal Nanocatalysts in Tuning the Product Selectivity

Liu

Duay

et al. 2017

Catalysts

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“…Seed-mediated growth, which was pioneered by Natan et al, 17 Murphy et al, [18][19][20] and among others, 21 is the fundamental method used to control the dimensions of GNPs. This method has been used to synthesize gold nanoplates and nanorods.…”

Section: Introductionmentioning

confidence: 99%

Kinetically Controlled Growth of Gold Nanoplates and Nanorods via a One-Step Seed-Mediated Method

Hong¹,

Acapulco²,

Jang³

et al. 2014

Bulletin of the Korean Chemical Society

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In this research, we further developed the one-step seed mediated method to synthesize gold nanoparticles (GNPs) and control their resulting shapes to obtain hexagonal, triangular, rod-shaped, and spherical gold nanostructures. Our method reveals that the reaction kinetics of formation of GNPs with different shapes can be controlled by the rate of addition of ascorbic acid, because this is the critical factor that dictates the energy barrier that needs to be overcome. This in turn affects the growth mechanism process, which involves the adsorption of growth species to gold nanoseeds. There were also observable trends in the dimensions of the GNPs according to different rates of addition of ascorbic acid. We performed further analyses to investigate and confirm the characteristics of the synthesized GNPs.

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“…Today, nano-particles can be synthesized with a variety of shapes [1][2][3][4][5] and arrangements [6,7], allowing for different applications. To unveil the full potential of these nano-particle based applications [8,9] in general, it is imperative to understand and characterize the wide range of intriguing properties of these nanoscale entities.…”

Section: Introductionmentioning

confidence: 99%

To see or not to see: Imaging surfactant coated nano-particles using HIM and SEM

et al. 2013

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Nano-particles are of great interest in fundamental and applied research. However, their accurate visualization is often difficult and the interpretation of the obtained images can be complicated. We present a comparative scanning electron microscopy and helium ion microscopy study of cetyltrimethylammoniumbromide (CTAB) coated gold nano-rods. Using both methods we show how the gold core as well as the surrounding thin CTAB shell can selectively be visualized. This allows for a quantitative determination of the dimensions of the gold core or the CTAB shell. The obtained CTAB shell thickness of 1.0 nm-1.5 nm is in excellent agreement with earlier results using more demanding and reciprocal space techniques.

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The Quest for Shape Control: A History of Gold Nanorod Synthesis

Cited by 597 publications

References 89 publications

Engineering Surface Ligands of Noble Metal Nanocatalysts in Tuning the Product Selectivity

Engineering Surface Ligands of Noble Metal Nanocatalysts in Tuning the Product Selectivity

Kinetically Controlled Growth of Gold Nanoplates and Nanorods via a One-Step Seed-Mediated Method

To see or not to see: Imaging surfactant coated nano-particles using HIM and SEM

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