Synthesis of Dumbbell-Shaped Au−Ag Core−Shell Nanorods by Seed-Mediated Growth under Alkaline Conditions

Huang, Chih‐Ching; Yang, Zusing; Chang, Huan‐Tsung

doi:10.1021/la048791w

Cited by 178 publications

(159 citation statements)

References 34 publications

Supporting

Mentioning

154

Contrasting

Order By: Relevance

“…[184] Silver coating is generally conducted by the reduction of silver nitrate with ascorbic acid at base condition in the presence of gold nanorods and stabilizing agents such as citrate, CTAB, and polyvinylpyrrolindone (PVP). [185,186] Reduction of saturated silver chloride aqueous solution with hydroxyamine oxide could also chemically deposit a silver shell on gold nanorods. [187] The silver thickness can be controlled by tuning the concentration of the silver precursor and the mild reducing agents.…”

Section: Surface Modificationsmentioning

confidence: 99%

Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications

2009

View full text Add to dashboard Cite

Noble metal nanoparticles are capable of confining resonant photons in such a manner as to induce coherent surface plasmon oscillation of their conduction band electrons, a phenomenon leading to two important properties. Firstly, the confinement of the photon to the nanoparticle's dimensions leads to a large increase in its electromagnetic field and consequently great enhancement of all the nanoparticle's radiative properties, such as absorption and scattering. Moreover, by confining the photon's wavelength to the nanoparticle's small dimensions, there exists enhanced imaging resolving powers, which extend well below the diffraction limit, a property of considerable importance in potential device applications. Secondly, the strongly absorbed light by the nanoparticles is followed by a rapid dephasing of the coherent electron motion in tandem with an equally rapid energy transfer to the lattice, a process integral to the technologically relevant photothermal properties of plasmonic nanoparticles. Of all the possible nanoparticle shapes, gold nanorods are especially intriguing as they offer strong plasmonic fields while exhibiting excellent tunability and biocompatibility. We begin this review of gold nanorods by summarizing their radiative and nonradiative properties. Their various synthetic methods are then outlined with an emphasis on the seed-mediated chemical growth. In particular, we describe nanorod spontaneous self-assembly, chemically driven assembly, and polymer-based alignment. The final section details current studies aimed at applications in the biological and biomedical fields.

show abstract

Section: Surface Modificationsmentioning

confidence: 99%

Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications

2009

View full text Add to dashboard Cite

show abstract

“…The conventional image tends to be that of a (roughly) spherical core-shell ensemble, although alternative shapes are now known to be important, particularly in light of their potential applications in diverse areas such as nanoelectronics and biomedical sensors. [8][9][10][11] In our previous studies on core-shell C n Al 12 species, the n = 4 system has exhibited a unique behaviour. The original Al 12 shell generally preserved its near-icosahedral structure for n = 1 to 3, but, apparently due to an "oversized" carbon core, acquired a tetracapped-cube-like geometry for C 4 Al 12 .…”

Section: Introductionmentioning

confidence: 97%

Communication: A density functional investigation of structure-property evolution in the tetrakis hexahedral C4Al14 nanocluster

Irving

Naumkin

2014

The Journal of Chemical Physics

View full text Add to dashboard Cite

Nanoclusters are prime objects of study in modern nanotechnology and offer a variety of applications promoted by their properties tunable by size, shape, and composition. DFT calculations are employed to analyze structure, stability, and selected electronic properties of a core-shell C4Al14 species. With insertion of the carbon core, the original low-symmetry aluminum cluster is predicted to undergo a considerable reshaping and acquire a striking D4h tetrakis-hexahedral geometry, with proportions controlled by a near-degenerate spin state or charge. The system also becomes more stable to dissociation. Surprisingly, other properties such as ionisation energy and electron affinity do not change significantly, although still exhibit some interesting features including opposite variations for vertical and adiabatic values. The stability and property evolutions are analyzed in terms of contributions from reshaping of the shell and its further interaction with the core. The system thus has potential applications as a symmetric building unit and a molecular device for nano-electronics/spintronics.

show abstract

“…5−8 Typically this deposition process is monitored through shifts of the surface plasmon resonance due to the changes in the shape and composition of the particle. 9,10 However, the plasmon resonance is mostly sensitive to the shape of the particle, whereas the exact dimensions are difficult to obtain from the spectrum (the line width only depends weakly on the particle volume for intermediate particle sizes 11 ). A prime example of this effect is the longitudinal plasmon of a subwavelength gold nanorod, whose frequency strongly depends on the aspect ratio (length/diameter) of the particle but only weakly on its volume.…”

mentioning

confidence: 99%

Probing Silver Deposition on Single Gold Nanorods by Their Acoustic Vibrations

Sader

Zijlstra

et al. 2014

Nano Lett.

View full text Add to dashboard Cite

show abstract

Synthesis of Dumbbell-Shaped Au−Ag Core−Shell Nanorods by Seed-Mediated Growth under Alkaline Conditions

Cited by 178 publications

References 34 publications

Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications

Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications

Communication: A density functional investigation of structure-property evolution in the tetrakis hexahedral C4Al14 nanocluster

Probing Silver Deposition on Single Gold Nanorods by Their Acoustic Vibrations

Contact Info

Product

Resources

About