Add to ORKGABSTRACT: We discovered for the first time that light can twist metal to control the chirality of metal nanostructures (hereafter, chiral metal nanoneedles). The helicity of optical vortices is transferred to the constituent elements of the irradiated material (mostly melted material), resulting in the formation of chiral metal nanoneedles. The chirality of these nanoneedles could be controlled by just changing the sign of the helicity of the optical vortex. The tip curvature of these chiral nanoneedles was measured to be <40 nm, which is less than 1/25th of the laser wavelength (1064 nm). Such chiral metal nanoneedles will enable us to selectively distinguish the chirality and optical activity of molecules and chemical composites on a n...
We simulate the spectral properties of simple plasmonic nanoparticles (NPs), which we have fabricate...
The transfer of structural mirror asymmetry from chiral molecules to the inorganic phase at solid‐li...
In this thesis, we aim at demonstrating chiral optical effects in plasmonic systems. The manipulatio...
Strong chiroptical effects recently reported result from the interaction of light with chiral plasmo...
Plasmonic nanostructures have demonstrated a remarkable ability to control light in ways never obser...
none8siInduction, transmission, and manipulation of chirality in molecular systems are well known, ...
Chirality of plasmonic films can be strongly enhanced by three-dimensional (3D) out-of-plane geometr...
The field of chirality has recently seen a rejuvenation due to the observation of chirality in inorg...
Chirality, i.e., lack of reflection symmetry, is a property of materials which leads to optical acti...
Recent advances in nanotechnology have paved ways to various techniques for designing and fabricatin...
The plasmonic chiroptical effect has been used to manipulate chiral states of light, where the stron...
We show that the gradient force generated by the near field of a chiral nanoparticle carries informa...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
New hybrid multilayered nanostructures composed of plasmonic and iron oxide nanoparticles, bound tog...
Recent progress in nanofabrication has redrawn the boundaries of the applicability of chiroptical (c...
We simulate the spectral properties of simple plasmonic nanoparticles (NPs), which we have fabricate...
The transfer of structural mirror asymmetry from chiral molecules to the inorganic phase at solid‐li...
In this thesis, we aim at demonstrating chiral optical effects in plasmonic systems. The manipulatio...
Strong chiroptical effects recently reported result from the interaction of light with chiral plasmo...
Plasmonic nanostructures have demonstrated a remarkable ability to control light in ways never obser...
none8siInduction, transmission, and manipulation of chirality in molecular systems are well known, ...
Chirality of plasmonic films can be strongly enhanced by three-dimensional (3D) out-of-plane geometr...
The field of chirality has recently seen a rejuvenation due to the observation of chirality in inorg...
Chirality, i.e., lack of reflection symmetry, is a property of materials which leads to optical acti...
Recent advances in nanotechnology have paved ways to various techniques for designing and fabricatin...
The plasmonic chiroptical effect has been used to manipulate chiral states of light, where the stron...
We show that the gradient force generated by the near field of a chiral nanoparticle carries informa...
Chiral metamaterials can have diverse technological applications, such as engineering strongly twist...
New hybrid multilayered nanostructures composed of plasmonic and iron oxide nanoparticles, bound tog...
Recent progress in nanofabrication has redrawn the boundaries of the applicability of chiroptical (c...
We simulate the spectral properties of simple plasmonic nanoparticles (NPs), which we have fabricate...
The transfer of structural mirror asymmetry from chiral molecules to the inorganic phase at solid‐li...
In this thesis, we aim at demonstrating chiral optical effects in plasmonic systems. The manipulatio...