Add to ORKGBy using gold nanorods as an example, we report the dynamic and reversible tuning of the plasmonic property of anisotropically shaped colloidal metal nanostructures by controlling their orientation using external magnetic fields. The magnetic orientational control enables instant and selective excitation of the plasmon modes of AuNRs through the manipulation of the field direction relative to the directions of incidence and polarization of light
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
We report on light-controlled in situ bidirectional tuning of longitudinal surface plasmon resonance...
Noble metal nanostructures with tunable localized surface plasmon resonance (LSPR) frequency have at...
By using gold nanorods as an example, we report the dynamic and reversible tuning of the plasmonic p...
By using gold nanorods as an example, we report the dynamic and reversible tuning of the plasmonic p...
Comprehension and modulation of optical activity at nanoscale have attracted tremendous interest in ...
Using numerical simulations, we examine the change in plasmon resonance behavior in gold nanorod str...
The modulation of quasi-one-dimensional plasmonic nanorods via the utilization of localized surface ...
Plasmonic nanostructures have attracted significant attention due to their tunable optical propertie...
(Statement of Responsibility) by Abigail McAloon(Thesis) Thesis (B.A.) -- New College of Florida, ...
Gold nanorods are of great interest in many areas of science and technology due to their versatility...
We report on light-controlled in situ bidirectional tuning of longitudinal surface plasmon resonance...
International audienceto reversible liquid-crystal like ordering. We can expect strong induced biref...
Controlled orientation and alignment of rod‐shaped plasmonic nanoparticles are of great interest for...
The optoelectronic properties of asymmetric metal nanostructures are of current interest for applica...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
We report on light-controlled in situ bidirectional tuning of longitudinal surface plasmon resonance...
Noble metal nanostructures with tunable localized surface plasmon resonance (LSPR) frequency have at...
By using gold nanorods as an example, we report the dynamic and reversible tuning of the plasmonic p...
By using gold nanorods as an example, we report the dynamic and reversible tuning of the plasmonic p...
Comprehension and modulation of optical activity at nanoscale have attracted tremendous interest in ...
Using numerical simulations, we examine the change in plasmon resonance behavior in gold nanorod str...
The modulation of quasi-one-dimensional plasmonic nanorods via the utilization of localized surface ...
Plasmonic nanostructures have attracted significant attention due to their tunable optical propertie...
(Statement of Responsibility) by Abigail McAloon(Thesis) Thesis (B.A.) -- New College of Florida, ...
Gold nanorods are of great interest in many areas of science and technology due to their versatility...
We report on light-controlled in situ bidirectional tuning of longitudinal surface plasmon resonance...
International audienceto reversible liquid-crystal like ordering. We can expect strong induced biref...
Controlled orientation and alignment of rod‐shaped plasmonic nanoparticles are of great interest for...
The optoelectronic properties of asymmetric metal nanostructures are of current interest for applica...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
We report on light-controlled in situ bidirectional tuning of longitudinal surface plasmon resonance...
Noble metal nanostructures with tunable localized surface plasmon resonance (LSPR) frequency have at...