A mathematical investigation of the Turkevich organizer theory in the citrate method for the synthesis of gold nanoparticles

Agunloye, Emmanuel; Gavriilidis, Asterios; Mazzei, Luca

doi:10.1016/j.ces.2017.07.032

Cited by 18 publications

(20 citation statements)

References 17 publications

(47 reference statements)

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“…A study by Kumar et al concluded that the dicarboxy acetone (DCA) formed from citrate reduction plays a predominant role which aids nucleation and its side product, acetone, could continue reducing the gold nanoparticles precursor and speed up growth (Kumar et al, 2006). Even though the model agreed with several literature results, it does not yield satisfactory predictions in other cases, because it does not take account of the acid-base properties of the reactants (Agunloye et al, 2017). Wuithschick et al (2015) demonstrated experimentally that the Au(III) species are the critical element to control particle size.…”

Section: Introductionmentioning

confidence: 34%

Continuous flow synthesis of ultrasmall gold nanoparticles in a microreactor using trisodium citrate and their SERS performance

Huang

Toit

Besenhard

et al. 2018

Chemical Engineering Science

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Section: Introductionmentioning

confidence: 34%

Continuous flow synthesis of ultrasmall gold nanoparticles in a microreactor using trisodium citrate and their SERS performance

Huang

Toit

Besenhard

et al. 2018

Chemical Engineering Science

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“…However, aside from the three discussed parameters, there are several other parameters with key influence. One is molar ratio among the reactants, which was already effectively used by Turkevich for a tailored preparation of gold nanoparticles [154,160,212,221,222]. The whole reduction process can be also influenced by other substances present in the reaction system-e.g., molecules of surfactants, polymers, and other low-molecular organic substances with O, N, and S heteroatoms, which significantly influence the process of nucleation and growth of the nanoparticles [223][224][225][226] and also the aggregation stability of the final system [227][228][229].…”

Section: Resultsmentioning

confidence: 99%

Physicochemical Aspects of Metal Nanoparticle Preparation

Kvı́tek¹,

Prucek²,

Panáček³

et al. 2020

Engineered Nanomaterials - Health and Safety

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Physicochemical properties, including optical properties or catalytic activity, and biological properties of metal nanoparticles are considerably influenced by their diameter. Therefore, a tailored synthesis of metal nanoparticles represents a key topic in the field of nanotechnology, and the number of research papers, concerning this topic, has been annually growing with an arithmetic progression. Metal nanoparticles are most frequently prepared via chemical reduction of metals in ionic form from their solutions. Using this synthetic approach, tailored parameters of the particles can be achieved via the adjustment of numerous factors: difference of potentials of the metal redox system and the reducing agent redox system, pH of the reaction mixture, and its temperature. The influence of these three factors on the diameter of the prepared metal nanoparticles will be discussed in the following chapter with respect to general laws and based on numerous examples from research practice.

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“…The classical synthesis approach for GNPs was first reported by Turkevich et al. in 1951 . It is based on the chemical reduction of Au(III) in aqueous solution (also named wet‐chemical synthesis) and involves essentially two processes: the nucleation and particle growth .…”

Section: Synthesis and Surface Modificationmentioning

confidence: 99%

Functionalized gold nanoparticles for sample preparation: A review

Liu

Lämmerhofer

2019

Electrophoresis

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Sample preparation is a crucial step for the reliable and accurate analysis of both small molecule and biopolymers which often involves processes such as isolation, pre‐concentration, removal of interferences (purification), and pre‐processing (e.g., enzymatic digestion) of targets from a complex matrix. Gold nanoparticle (GNP)‐assisted sample preparation and pre‐concentration has been extensively applied in many analytical procedures in recent years due to the favorable and unique properties of GNPs such as size‐controlled synthesis, large surface‐to‐volume ratio, surface inertness, straightforward surface modification, easy separation requiring minimal manipulation of samples. This review article primarily focuses on applications of GNPs in sample preparation, in particular for bioaffinity capture and biocatalysis. In addition, their most common synthesis, surface modification and characterization methods are briefly summarized. Proper surface modification for GNPs designed in accordance to their target application directly influence their functionalities, e.g., extraction efficiencies, and catalytic efficiencies. Characterization of GNPs after synthesis and modification is worthwhile for monitoring and controlling the fabrication process to ensure proper quality and functionality. Parameters such as morphology, colloidal stability, and physical/chemical properties can be assessed by methods such as surface plasmon resonance, dynamic light scattering, ζ‐potential determinations, transmission electron microscopy, Taylor dispersion analysis, and resonant mass measurement, among others. The accurate determination of the surface coverage appears to be also mandatory for the quality control of functionality of the nanoparticles. Some promising applications of (functionalized) GNPs for bioanalysis and sample preparation are described herein.

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A mathematical investigation of the Turkevich organizer theory in the citrate method for the synthesis of gold nanoparticles

Cited by 18 publications

References 17 publications

Continuous flow synthesis of ultrasmall gold nanoparticles in a microreactor using trisodium citrate and their SERS performance

Continuous flow synthesis of ultrasmall gold nanoparticles in a microreactor using trisodium citrate and their SERS performance

Physicochemical Aspects of Metal Nanoparticle Preparation

Functionalized gold nanoparticles for sample preparation: A review

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