Steffen Witte scite author profile

This contribution provides a comprehensive mechanistic picture of the gold nanoparticle synthesis by citrate reduction of HAuCl4, known as Turkevich method, by addressing five key questions. The synthesis leads to monodisperse final particles as a result of a seed-mediated growth mechanism. In the initial phase of the synthesis, seed particles are formed onto which the residual gold is distributed during the course of reaction. It is shown that this mechanism is a fortunate coincidence created by a favorable interplay of several chemical and physicochemical processes which initiate but also terminate the formation of seed particles and prevent the formation of further particles at later stages of reaction. Since no further particles are formed after seed particle formation, the number of seeds defines the final total particle number and therefore the final size. The gained understanding allows illustrating the influence of reaction conditions on the growth process and thus the final size distribution.

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Missing Piece of the Mechanism of the Turkevich Method: The Critical Role of Citrate Protonation

Kettemann

Birnbaum

Witte

et al. 2016

Chem. Mater.

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This contribution investigates the growth mechanism of the Turkevich method. The experimental results provide the important missing piece of the mechanistic puzzle which enables the actual control of particle growth in the common Turkevich method. Applying the gained knowledge, the boundary conditions for a successful Turkevich synthesis are deduced. Moreover, the conditions under which the Turkevich method is highly reproducible are derived. Following these conditions, the Turkevich synthesis is modified to reveal small monodisperse particles with an unprecedented reproducibility of ±0.1 nm.

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Illustrating the formation of metal nanoparticles with a growth concept based on colloidal stability

Wuithschick

Witte

Kettemann

et al. 2015

Phys. Chem. Chem. Phys.

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A large number of scientific contributions is dedicated to syntheses, characterization and applications of metal nanoparticles. In contrast, only few studies on their formation mechanisms have been reported. In general, concepts to describe particle growth processes are rare. Commonly used models are not able to explain the influences of reaction parameters on the growth and the final particle size. In this contribution it is shown how the growth of colloidal metal nanoparticles can be illustrated using an approach based on colloidal stability. In the first part, investigations of various syntheses of colloidal nanoparticles (including Rh, Pd, Pt, Cu, Ag and Au) show that growth due to aggregation and coalescence is the governing principle of nanoparticle formation if the monomer supply is faster than the actual growth. In the second part of this contribution, the influences of various parameters on the growth of Au nanoparticles are studied and it is demonstrated how the colloidal stability approach can illustrate the impact of synthesis parameters on the final particle size.

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Unifying Concepts in Room-Temperature CO Oxidation with Gold Catalysts

et al. 2017

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The oxidation of CO is a fundamental model reaction in heterogeneous catalysis. This contribution presents an uncommon approach to investigate a catalytic gas-phase reaction by using colloidal gold and provides a unified picture of the CO oxidation of supported gold nanoparticles at room temperature. Our experiments on ligand-free colloidal gold nanoparticles prove that gold activates molecular oxygen independently from the presence of any support. Isotope experiments along with studies on colloidal stability reveal that the active oxygen species is a stable surface oxide that can be protonated. The role of the support is to provide water for protonation steps. Therefore, the hydrophilicity is the main property of the support which determines the catalytic activity and not, as is often assumed, its acidity or reducibility. The deduced model provides explanations for experimental results described in the literature for various gold catalysts and reaction conditions.

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A new experimental setup for time- and laterally-resolved X-ray absorption fine structure spectroscopy in a ‘single shot’

Kulow

Witte

Beyer

et al. 2019

J. Anal. At. Spectrom.

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Steffen Witte

Turkevich in New Robes: Key Questions Answered for the Most Common Gold Nanoparticle Synthesis

Missing Piece of the Mechanism of the Turkevich Method: The Critical Role of Citrate Protonation

Illustrating the formation of metal nanoparticles with a growth concept based on colloidal stability

Unifying Concepts in Room-Temperature CO Oxidation with Gold Catalysts

A new experimental setup for time- and laterally-resolved X-ray absorption fine structure spectroscopy in a ‘single shot’

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