Bulky Adamantanethiolate and Cyclohexanethiolate Ligands Favor Smaller Gold Nanoparticles with Altered Discrete Sizes

Krommenhoek, Peter J.; Wang, Junwei; Hentz, Nathaniel G.; Johnston‐Peck, Aaron C.; Kozek, Krystian A.; Kalyuzhny, Gregory; Tracy, Joseph B.

doi:10.1021/nn3003778

Cited by 102 publications

(124 citation statements)

References 97 publications

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“…They explained that during NP synthesis, steric overlapping of the voluminous ligands avoids the incorporation of more metal ions to the active surfaces of growing clusters, blocking the growth process and resulting in smaller NP sizes. 45 It is possible to infer from our results that a similar phenomenon occurred to the metal clusters attached to the protein nanotubes when GlcC 5 SH was used as coating compound.…”

Section: Synthesis Of Thiol-coated Gold Particles On Vp6 Nanotubes: Tsupporting

confidence: 55%

“…It has also been demonstrated that bulkier ligands prevent the growth of gold clusters, limiting their size. 45 To test whether this phenomenon occurred in our system employing viral scaffolds in combination with thiols, the synthesis of Au NP was performed in the presence of β-D-glucopyranoside 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 10 (GlcC 5 SH), which has a larger size than MPS (Figure 3). This glyco-ligand can confer biocompatibility to gold nanocomplexes while avoiding their aggregation.…”

Section: Synthesis Of Thiol-coated Gold Particles On Vp6 Nanotubes: Tmentioning

confidence: 99%

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Modulating the Physicochemical and Structural Properties of Gold-Functionalized Protein Nanotubes through Thiol Surface Modification

et al. 2014

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Biomolecules are advantageous scaffolds for the synthesis and ordering of metallic nanoparticles. Rotavirus VP6 nanotubes possess intrinsic affinity to metal ions, a property that has been exploited to synthesize gold nanoparticles over them. The resulting nanobiomaterials have unique properties useful for novel applications. However, the formed nanobiomaterials lack of colloidal stability and flocculate, limiting their functionality. Here we demonstrate that it is possible to synthesize thiol-protected gold nanoparticles over VP6 nanotubes, which resulted in soluble nanobiomaterials. With this strategy, it was possible to modulate the size, colloidal stability, and surface plasmon resonance of the synthesized nanoparticles by controlling the content of the thiolated ligands. Two types of water-soluble ligands were tested, a small linear ligand, sodium 3-mercapto-1-propanesulfonate (MPS), and a bulky ligand, 5-mercaptopentyl β-D-glucopyranoside (GlcC5SH). The synthesized nanobiomaterials had a higher stability in suspension, as determined by Z-potential measurements. To the extent of our knowledge, this is the first time that a rational strategy is developed to modulate the particular properties of metal nanoparticles in situ synthesized over a protein bioscaffold through thiol coating, achieving a high spatial and structural organization of nanoparticles in a single integrative hybrid structure.

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Section: Synthesis Of Thiol-coated Gold Particles On Vp6 Nanotubes: Tsupporting

confidence: 55%

Section: Synthesis Of Thiol-coated Gold Particles On Vp6 Nanotubes: Tmentioning

confidence: 99%

Modulating the Physicochemical and Structural Properties of Gold-Functionalized Protein Nanotubes through Thiol Surface Modification

et al. 2014

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“…Bulky ones, e.g. bearing an adamantane or carbohydrate backbone, are more efficient stabilizers and help stabilize MNPs of small sizes [85], [86]. .…”

Section: Influence Of Ligand Coordination At the Surface Of Metal Nanmentioning

confidence: 99%

Controlled metal nanostructures: Fertile ground for coordination chemists

Amiens

Ciuculescu-Pradines

Philippot

2016

Coordination Chemistry Reviews

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“…This is consistent with previous studies showing that bulky thiol ligands resulted in smaller core sizes by comparison with nonbulky ligands. 66 It is likely that the C14 alkyl chains of L3 – L5 increase the volume of the NHC ligand close to the surface of the metallic core. This is particularly significant for L3 in which the intramolecular steric interactions between the long alkyl chains may lead to the largest ligand size (Figure 13).…”

Section: Synthesis Of Au Nanocrystals From Nhc-based Aui and Auiii Prmentioning

confidence: 99%

N-Heterocyclic Carbene Ligands for Au Nanocrystal Stabilization and Three-Dimensional Self-Assembly

2016

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N-Heterocyclic carbenes (NHCs) have emerged as a new class of ligands for materials chemistry that appears particularly relevant for the stabilization and functionalization of metal nanoparticles (NPs). The particular properties and high synthetic flexibility of NHCs make them highly attractive tools for the development of new (nano)materials and the fundamental study of their properties. The relationships between the NHC structure and NP structure/properties, including physical, biological, and self-assembly properties, remain largely unknown. In the past decade, many efforts have been made to gain more fundamental understanding in this area. In this feature article, we present our contribution in this field focusing on the formation of NHC-coated Au nanocrystals (NCs), their stability, and their ability to self-assemble into 3D crystalline structures called supracrystals. First, the formation of NHC-stabilized Au NCs is discussed by comparing different NHC structures, NHC-based Au precursors, and synthesis methods. This study shows the major role of the NHC structure in obtaining both stable NHC-coated Au NCs and narrow size distributions. In a second part, a comparative study of the oxygen resistance of NHC- and thiol-coated NCs is presented, demonstrating the enhanced stability of NHC-coated Au NCs to oxygen-based treatments. Finally, the self-assembly of NHC-coated Au NCs into 3D Au superlattices is presented. The formation of large organized domains of several micrometers is described from the design of NHCs tailored with long alkyl chains. In these different contexts, efforts have been made to gain a more in-depth understanding of the behavior of NHC ligands at the surface of NCs. These results show that the NHC-based approach to nanomaterials has many assets for opening a new research area in the supracrystal world.

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Bulky Adamantanethiolate and Cyclohexanethiolate Ligands Favor Smaller Gold Nanoparticles with Altered Discrete Sizes

Cited by 102 publications

References 97 publications

Modulating the Physicochemical and Structural Properties of Gold-Functionalized Protein Nanotubes through Thiol Surface Modification

Modulating the Physicochemical and Structural Properties of Gold-Functionalized Protein Nanotubes through Thiol Surface Modification

Controlled metal nanostructures: Fertile ground for coordination chemists

N-Heterocyclic Carbene Ligands for Au Nanocrystal Stabilization and Three-Dimensional Self-Assembly

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