Thiol-Functionalized, 1.5-nm Gold Nanoparticles through Ligand Exchange Reactions:  Scope and Mechanism of Ligand Exchange

Woehrle, Gerd H.; Brown, Leif O.; Hutchison, James E.

doi:10.1021/ja0457718

Cited by 421 publications

(440 citation statements)

References 53 publications

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“…Thiolated gold NPs, labelled as Au-SR exchange , were synthesized via ligand exchange reactions of phosphinestabilized NPs ͑Au-TPP͒ as previously described by Woehrle et al 26 The starting point was a solution of 0.156 g of Au-TPP in 40 ml of CH 2 Cl 2 , to this solution 0.156 g of dodecanethiol ͑Aldrich, 98.5%͒ were added. The resulting mixture was stirred at room temperature for 10 h to complete the ligand exchange reactions.…”

Section: A Np Synthesismentioning

confidence: 99%

Hyperthermia HeLa Cell Treatment with Silica-Coated Manganese Oxide Nanoparticles

et al. 2010

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In the last years, the number of studies performed by wholly independent research groups that confirm the permanent magnetism, first observed in our research lab, for thiol-capped Au nanoparticles ͑NPs͒ has rapidly increased. Throughout the years, the initial magnetometry studies have been completed with element-specific magnetization measurements based on, for example, the x-ray magnetic circular dichroism technique that have allowed the identification of gold as the magnetic moment carrier. In the research work here presented, we have focused our efforts in the evaluation of the magnetic behavior and iron impurities content in the synthesized samples by means of superconducting quantum interference device magnetometry and electron paramagnetic resonance spectrometry, respectively. As a result, hysteresis cycles typical of a ferromagnetic material have been measured from nominally iron-free gold NPs protected with thiol, phosphine, and chlorine ligands. It is also observed that for samples containing both, capped gold NPs and highly diluted iron concentrations, the magnetic behavior of the NPs is not affected by the presence of paramagnetic iron impurities. The hysteresis cycles reported for phosphine-chlorine-capped gold NPs confirm that the magnetic behavior is not exclusively for the metal-thiol system.

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Section: A Np Synthesismentioning

confidence: 99%

Hyperthermia HeLa Cell Treatment with Silica-Coated Manganese Oxide Nanoparticles

et al. 2010

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“…Biocompatible coatings on nanoparticles that may protect proteins against direct and usually harmful interactions with the metal can be obtained by self-assembled monolayers (SAMs) of o-functionalised mercaptoalkanes. 3 Again, this method has been established for Au but, up to now, only one SERR spectroscopic study of proteins on SAM-coated AgNPs has been reported. 4 However, in that work rather unstable AgNP aggregates were used.…”

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confidence: 99%

Functionalized Ag nanoparticles with tunable optical properties for selective protein analysis

Sivanesan

Kozuch

et al. 2011

Chem. Commun.

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“…The addition of TOAB affects the process of formation of mesoparticles in two ways: firstly, by lowering the rate of formation of Au atoms and, secondly, by adsorbing onto Au facets and promoting preferential crystalline growth. In the case of Type III and IV particles, in the first step of reduction of Au (III) an exchange of ligands takes place in the AuCl [18,19]. AuBr − 4 is a rather stable complex and consequently the reduction of Au(III) and the formation of gold atoms is slower in the presence of TOAB since the following reaction is more sluggish:…”

Section: Discussionmentioning

confidence: 99%

Preparation and microscopic characterization of magnetite–gold mesoparticles with tunable morphology

Lloret

Ybarra

Granell

et al. 2015

Nano-Structures & Nano-Objects

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h i g h l i g h t s• Magnetite-gold mesoparticles were prepared with controlled morphology by adjusting the concentration of reactants and surfactants used in the synthesis.• A structural study was carried out by using FIB/SEM technology which revealed that the inner structured of the particles is composed by iron oxide nanoparticles and gold crystals.• A tridimensional reconstruction was created from SEM images of sliced mesoparticles by focused ion beam. t r a c tComposite magnetite-gold mesoscopic particles were prepared by deposition of Au onto magnetite nanoparticles. The surface morphology of the mesoparticles could be tuned by controlling the factors that affect the kinetics of the reactions and by adding surfactants that direct the growth of gold crystals. The internal structure of composite mesoparticles was analyzed by focused ion beam and scanning electron microscopy. A particle-mediated growth mechanism of formation was proposed.

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Thiol-Functionalized, 1.5-nm Gold Nanoparticles through Ligand Exchange Reactions: Scope and Mechanism of Ligand Exchange

Cited by 421 publications

References 53 publications

Hyperthermia HeLa Cell Treatment with Silica-Coated Manganese Oxide Nanoparticles

Hyperthermia HeLa Cell Treatment with Silica-Coated Manganese Oxide Nanoparticles

Functionalized Ag nanoparticles with tunable optical properties for selective protein analysis

Preparation and microscopic characterization of magnetite–gold mesoparticles with tunable morphology

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