Formation of Small Gold Nanoparticle Chains with High NIR Extinction through Bridging with Calcium Ions

Stover, Robert J.; Moaseri, Ehsan; Gourisankar, Sai; Iqbal, Muhammad Waseem; Rahbar, Negin K.; Changalvaie, Behzad; Truskett, Thomas M.; Johnston, Keith P.

doi:10.1021/acs.langmuir.5b03639

Cited by 22 publications

(38 citation statements)

References 63 publications

(161 reference statements)

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“…Specifically, the CTAB layer is thought to be less well-organized on the surface of small spherical particles than it would be on the surface of a gold nanorod. Between the inherent organization of the capping agent on the metal core’s surface, and the possibility for capping agents to desorb from the particle surface under specific solution conditions 28 , Fg has several possible pathways to penetrate into the coating layer and interact with the metal surface. Previous studies have shown that citrate-coated gold NP’s are subject to aggregation in calcium-containing media (such as RPMI), which may be accompanied by ligand desorption.…”

Section: Resultsmentioning

confidence: 99%

Bare surface of gold nanoparticle induces inflammation through unfolding of plasma fibrinogen

Kharazian

Lohse

Ghasemi

et al. 2018

Sci Rep

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The surface of nanoparticles (NPs) get coated by a wide range of biomolecules, upon exposure to biological fluids. It is now being increasingly accepted that NPs with particular physiochemical properties have a capacity to induce conformational changes to proteins and therefore influence their biological fates, we hypothesized that the gold NP’s metal surface may also be involved in the observed Fg unfolding and inflammatory response. To mechanistically test this hypothesis, we probed the interaction of Fg with gold surfaces using molecular dynamic simulation (MD) and revealed that the gold surface has a capacity to induce Fg conformational changes in favor of inflammation response. As the integrity of coatings at the surface of ultra-small gold NPs are not thorough, we also hypothesized that the ultra-small gold NPs have a capacity to induce unfolding of Fg regardless of the composition and surface charge of their coatings. Using different surface coatings at the surface of ultra-small gold NPs, we validated this hypothesis. Our findings suggest that gold NPs may cause unforeseen inflammatory effects, as their surface coatings may be degraded by physiological activity.

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Section: Resultsmentioning

confidence: 99%

Bare surface of gold nanoparticle induces inflammation through unfolding of plasma fibrinogen

Kharazian

Lohse

Ghasemi

et al. 2018

Sci Rep

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“…Conditions for forming linear, necklace-like [8,9] or globular [10] aggregates have been reported. The solvent used [4,11] passivating units, or the addition of salts [3,12] to influence the process leading, prevailingly, to one or the other aggregate morphology. Aggregation strongly affects the spectroscopic properties of AuNPs.…”

Section: Introductionmentioning

confidence: 99%

Glucosamine Phosphate Induces AuNPs Aggregation and Fusion into Easily Functionalizable Nanowires

et al. 2019

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The challenge to obtain plasmonic nanosystems absorbing light in the near infrared is always open because of the interest that such systems pose in applications such as nanotherapy or nanodiagnostics. Here we describe the synthesis in an aqueous solution devoid of any surfactant of Au-nanowires of controlled length and reasonably narrow dimensional distribution starting from Au-nanoparticles by taking advantage of the properties of glucosamine phosphate under aerobic conditions and substoichiometric nanoparticle passivation. Oxygen is required to enable the process where glucosamine phosphate is oxidized to glucosaminic acid phosphate and H2O2 is produced. The process leading to the nanosystems comprises nanoparticles growth, their aggregation into necklace-like aggregates, and final fusion into nanowires. The fusion requires the consumption of H2O2. The nanowires can be passivated with an organic thiol, lyophilized, and resuspended in water without losing their dimensional and optical properties. The position of the broad surface plasmon band of the nanowires can be tuned from 630 to >1350 nm.

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“…The wavelength of the resulting SPR can be tuned and varies with the morphology of the aggregate formed . Nanoparticle clusterization can be induced by addition of bifunctional crosslinking agents, surfactants and salts and it can substantially modify the properties of the nanoparticles for example, uptake rates by cells . Bisthiols are the most popular examples of crosslinking agents due to the high affinity of sulfur for gold .…”

Section: Introductionmentioning

confidence: 99%

Gold nanoparticles crosslinking by peptides and amino acids: A tool for the colorimetric identification of amino acids

Martínez

Scrimin

2018

Biopolymers

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Gold nanoparticles are known to aggregate in the presence of proper multifunctional compounds. For those larger than 3 nm, the process can be followed with the naked eye because the surface plasmon absorption band of the particles shifts to longer wavelengths and the solution color changes from red to blue. To exploit this property, we have used amino acids and peptides as crosslinking agents in ethanol at low µM concentrations. In the case of amino acids, we report a straightforward protocol for their colorimetric identification. We also report that the presence of precise secondary structure and conformational constraints in oligopeptides, directly influence their crosslinking ability. A discussion on the nature of the interactions that induce these phenomena is also reported.

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Formation of Small Gold Nanoparticle Chains with High NIR Extinction through Bridging with Calcium Ions

Cited by 22 publications

References 63 publications

Bare surface of gold nanoparticle induces inflammation through unfolding of plasma fibrinogen

Bare surface of gold nanoparticle induces inflammation through unfolding of plasma fibrinogen

Glucosamine Phosphate Induces AuNPs Aggregation and Fusion into Easily Functionalizable Nanowires

Gold nanoparticles crosslinking by peptides and amino acids: A tool for the colorimetric identification of amino acids

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