Jonas Kluitmann scite author profile

In this study the catalytic activity of different gold and bimetallic nanoparticle solutions towards the reduction of methylene blue by sodium borohydride as a model reaction is investigated. By utilizing differently shaped gold nanoparticles, i.e., spheres, cubes, prisms and rods as well as bimetallic gold–palladium and gold–platinum core-shell nanorods, we evaluate the effect of the catalyst surface area as available gold surface area, the shape of the nanoparticles and the impact of added secondary metals in case of bimetallic nanorods. We track the reaction by UV/Vis measurements in the range of 190–850 nm every 60 s. It is assumed that the gold nanoparticles do not only act as a unit transferring electrons from sodium borohydride towards methylene blue but can promote the electron transfer upon plasmonic excitation. By testing different particle shapes, we could indeed demonstrate an effect of the particle shape by excluding the impact of surface area and/or surface ligands. All nanoparticle solutions showed a higher methylene blue turnover than their reference, whereby gold nanoprisms exhibited 100% turnover as no further methylene blue absorption peak was detected. The reaction rate constant k was also determined and revealed overall quicker reactions when gold or bimetallic nanoparticles were added as a catalyst, and again these were highest for nanoprisms. Furthermore, when comparing gold and bimetallic nanorods, it could be shown that through the addition of the catalytically active second metal platinum or palladium, the dye turnover was accelerated and degradation rate constants were higher compared to those of pure gold nanorods. The results explore the catalytic activity of nanoparticles, and assist in exploring further catalytic applications.

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Effects of ionic strength on inclusion body refolding at high concentration

Gabrielczyk

Kluitmann

Dammeyer

et al. 2017

Protein Expression and Purification

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An expanded Markham and Benton approach to describe multi-component adsorption of sugars on zeolite beta

Hartig

Kluitmann

Scholl

2019

Microporous and Mesoporous Materials

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Metal Nano Networks by Potential‐Controlled In Situ Assembling of Gold/Silver Nanoparticles

2019

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Non‐spherical Au/Ag nanoparticles can be generated by chemical reduction of silver ions in the presence of preformed gold nanoparticles. The process of particle formation can be controlled by concentrations of ligands and reducing agent. The formation of ellipsoidal, nanorod‐ and peanut‐shaped nanoparticles as well as of more complex fractal nanoassemblies can be explained by changes in particle surface state, electrochemical potential formation and particle‐internal self‐polarization effects. It is possible to create highly fractal nanoassemblies with sizes between the mid‐nanometer and the lower micrometer range. The assemblies are marked by high optical absorption and complex nano‐networks of very high surface‐to‐volume ratios and a granular base structure.

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Tuning the morphology of bimetallic gold-platinum nanorods in a microflow synthesis

Kluitmann

Zheng

Köhler

2021

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Jonas Kluitmann

Shape-Dependent Catalytic Activity of Gold and Bimetallic Nanoparticles in the Reduction of Methylene Blue by Sodium Borohydride

Effects of ionic strength on inclusion body refolding at high concentration

An expanded Markham and Benton approach to describe multi-component adsorption of sugars on zeolite beta

Metal Nano Networks by Potential‐Controlled In Situ Assembling of Gold/Silver Nanoparticles

Tuning the morphology of bimetallic gold-platinum nanorods in a microflow synthesis

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