Gold Nanocluster Agglomeration Kinetic Studies: Evidence for Parallel Bimolecular Plus Autocatalytic Agglomeration Pathways as a Mechanism-Based Alternative to an Avrami-Based Analysis

Finney, Eric E.; Shields, Shawn P.; Buhro, William E.; Finke, Richard G.

doi:10.1021/cm203186y

Cited by 40 publications

(64 citation statements)

References 29 publications

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“…52,56,60,133−136 Finke first reported a four-step mechanism combining classical and aggregative growth in 2005. 45,46,49,50,63 Following these initial studies, the contribution of aggregative processes to nanocrystal growth, in certain cases, has been well-established (see below).…”

Section: Kinetics Of Aggregative Growthmentioning

confidence: 99%

Kinetics and Mechanisms of Aggregative Nanocrystal Growth

et al. 2013

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The aggregative growth and oriented attachment of nanocrystals and nanoparticles are reviewed, and they are contrasted to classical LaMer nucleation and growth, and to Ostwald ripening. Kinetic and mechanistic models are presented, and experiments directly observing aggregative growth and oriented attachment are summarized. Aggregative growth is described as a nonclassical nucleation and growth process. The concept of a nucleation function is introduced, and approximated with a Gaussian form. The height (Γ max ) and width (Δt n ) of the nucleation function are systematically varied by conditions that influence the colloidal stability of the small, primary nanocrystals participating in aggregative growth. The nucleation parameters Γ max and Δt n correlate with the final nanocrystal mean size and size distribution, affording a potential means of achieving nucleation control in nanocrystal synthesis.

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Section: Kinetics Of Aggregative Growthmentioning

confidence: 99%

Kinetics and Mechanisms of Aggregative Nanocrystal Growth

et al. 2013

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“…Finke and co-workers have reported on the transition metal nanocluster agglomeration kinetics, by monitoring all three phases of nanocluster formation and ageing (Hornstein and Finke 2004). Additionally, the agglomeration kinetics of dodecanethiol-stabilized gold nanoclusters, in the presence of different concentrations of tetraoctylammonium bromide (TOABr), has been explained based on bimolecular and autocatalytic pathway (Finney et al 2012). Moreover, polymer-like kinetics involving growth of Bi 2 S 3 nanowires has been reported (Cademartiri et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Kinetics of reaction of gold nanoparticles following partial removal of stabilizers

2015

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Citrate-stabilized gold nanoparticles (Au NPs) of 17-nm diameter were allowed to react following partial depletion of the stabilizer using dialysis. Kinetics of the reaction was investigated by following time-dependent changes in the visible extinction spectrum. Thus, surface plasmon resonance peak (SPR) of isolated Au NPs (reactant) at 522 nm decreased, while SPR peak due to product-which was agglomerated Au NPs-occurring at 600 nm increased with time. The reaction followed first-order kinetics with respect to concentration of reactant (Au NP) with a rate constant on the order of (2.10 ± 0.34) 9 10 -3 min -1 . Further, product concentration correspondingly increased with time. Transmission electron microscopy investigation indicated the presence of individual NPs, along with agglomerated structures in the beginning of reaction-the extent of which increased with time, rather than the formation of smaller agglomerates. A model has been proposed based on reaction of individual NPs with agglomerated structures which accounted for the observed kinetics.

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“…We start by considering a simple kinetic mechanism called "aggregative growth" [57]. Accordingly, the kinetics of agglomeration are governed by the following equations…”

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Effect of volume-fraction dependent agglomeration of nanoparticles on the thermal conductivity of nanocomposites: Applications to epoxy resins, filled by SiO2, AlN and MgO nanoparticles

Machrafi

Lebon

Iorio

2016

Composites Science and Technology

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Abstract.A thermodynamic model for transient heat conduction in ceramic-polymer nanocomposites is proposed. The model takes into account particle's size, particle's volume fraction, and interface characteristics with emphasis on the effect of agglomeration of particles on the effective thermal conductivity of the nanocomposite.The originality of the present work is its basement on extended irreversible thermodynamics, combining nano-and continuum-scales without invoking molecular dynamics. The model is compared to experimental data using the examples of SiO2, AlN and MgO nanoparticles embedded in epoxy resin. The analysis is limited to spherical nanoparticles. The dependence of the degree of agglomeration with respect of the volume fraction of particles is also discussed and a power-law relation is established through a kinetic mechanism and experiments performed in our laboratory. This relation is used in 2 our theoretical model, resulting into a good agreement with experiments. It is shown that the effective thermal conductivity may either increase or decrease with the degree of agglomeration.

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Gold Nanocluster Agglomeration Kinetic Studies: Evidence for Parallel Bimolecular Plus Autocatalytic Agglomeration Pathways as a Mechanism-Based Alternative to an Avrami-Based Analysis

Cited by 40 publications

References 29 publications

Kinetics and Mechanisms of Aggregative Nanocrystal Growth

Kinetics and Mechanisms of Aggregative Nanocrystal Growth

Kinetics of reaction of gold nanoparticles following partial removal of stabilizers

Effect of volume-fraction dependent agglomeration of nanoparticles on the thermal conductivity of nanocomposites: Applications to epoxy resins, filled by SiO2, AlN and MgO nanoparticles

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