Beschreibung
A new top-down nanofabrication method is described, which is called Iterative Size Reduction (ISR), where step-by-step reduction is utilized to decrease structure dimensions from macro- to nanosizes and produce indefinitely long one-dimensional core-shell nanostructures. Plateau-Rayleigh instabilities are then utilized to thermally degrade ISR-produced nanowire arrays into complex core-shell schemes, which are produced successively in a hitherto-undescribed transitory region between core-shell nanowires and core-shell nanospheres. A diverse array of emerging optical phenomena have been observed on fabricated novel core-shell nano-platforms. Briefly, (a) the resonant Mie scattering behavior is characterized on glass-polymer nanostructures, (b) a novel non-resonant Mie scattering regime responsible for the scattering characteristics exhibited by all-polymer core-shell nanowires is described, (c) a nanoscale analogue to the thin film interference phenomenon is demonstrated, (d) an unusual photonic crystal structure observed in mallard is investigated and imitated and (e) a series of all-polymer core-shell nanowires to function as light-trapping platforms and sensors are engineered.
Autorenporträt
Tural Khudiyev received B.S degree in Nuclear Engineering from the Hacettepe University and Ph.D. in Materials Science from the Bilkent University. Currently he is a postdoctoral associate at MIT. His research interests include investigating nanoscale material features, engineering multimaterial fibers for photonics and effective neural recording.
Herstellerkennzeichnung:
OmniScriptum SRL
Str. Armeneasca 28/1, office 1
2012 Chisinau
MD
E-Mail: info@omniscriptum.com
