Követés
Ivan Rukhlenko
Ivan Rukhlenko
Research Fellow in Photonic Structures and Devices
E-mail megerősítve itt: sydney.edu.au - Kezdőlap
Cím
Hivatkozott rá
Hivatkozott rá
Év
Electrically tunable metasurface with independent frequency and amplitude modulations
J Zhang, X Wei, ID Rukhlenko, HT Chen, W Zhu
Acs Photonics 7 (1), 265-271, 2019
2812019
Improved transmission model for metal-dielectric-metal plasmonic waveguides with stub structure
A Pannipitiya, ID Rukhlenko, M Premaratne, HT Hattori, GP Agrawal
Optics express 18 (6), 6191-6204, 2010
2462010
sp2–sp3-Hybridized Atomic Domains Determine Optical Features of Carbon Dots
NV Tepliakov, EV Kundelev, PD Khavlyuk, Y Xiong, MY Leonov, W Zhu, ...
ACS nano 13 (9), 10737-10744, 2019
1952019
Free-standing plasmonic-nanorod superlattice sheets
KC Ng, IB Udagedara, ID Rukhlenko, Y Chen, Y Tang, M Premaratne, ...
Acs Nano 6 (1), 925-934, 2012
1552012
Anomalous size-dependent decay of low-energy luminescence from PbS quantum dots in colloidal solution
EV Ushakova, AP Litvin, PS Parfenov, AV Fedorov, M Artemyev, ...
ACS nano 6 (10), 8913-8921, 2012
1302012
Induction of Chirality in Two-Dimensional Nanomaterials: Chiral 2D MoS2 Nanostructures
F Purcell-Milton, R McKenna, LJ Brennan, CP Cullen, L Guillemeney, ...
Acs Nano 12 (2), 954-964, 2018
1182018
Graphene metamaterial for optical reflection modulation
W Zhu, ID Rukhlenko, M Premaratne
Applied Physics Letters 102 (24), 2013
1152013
Configurable metamaterial absorber with pseudo wideband spectrum
W Zhu, Y Huang, ID Rukhlenko, G Wen, M Premaratne
Optics Express 20 (6), 6616-6621, 2012
1142012
Water metamaterial for ultra-broadband and wide-angle absorption
J Xie, W Zhu, ID Rukhlenko, F Xiao, C He, J Geng, X Liang, R Jin, ...
Optics express 26 (4), 5052-5059, 2018
1132018
Truly all-dielectric ultrabroadband metamaterial absorber: Water-based and ground-free
J Xie, S Quader, F Xiao, C He, X Liang, J Geng, R Jin, W Zhu, ...
IEEE Antennas and Wireless Propagation Letters 18 (3), 536-540, 2019
1012019
Nonlinear silicon photonics: analytical tools
ID Rukhlenko, M Premaratne, GP Agrawal
IEEE journal of selected topics in quantum electronics 16 (1), 200-215, 2009
962009
Electroabsorption by 0D, 1D, and 2D nanocrystals: A comparative study of CdSe colloidal quantum dots, nanorods, and nanoplatelets
AW Achtstein, AV Prudnikau, MV Ermolenko, LI Gurinovich, ...
ACS nano 8 (8), 7678-7686, 2014
952014
Analytical study of optical bistability in silicon ring resonators
ID Rukhlenko, M Premaratne, GP Agrawal
Optics letters 35 (1), 55-57, 2009
942009
Quantum-dot supercrystals for future nanophotonics
AS Baimuratov, ID Rukhlenko, VK Turkov, AV Baranov, AV Fedorov
Scientific reports 3 (1), 1727, 2013
922013
Engineering spin and antiferromagnetic resonances to realize an efficient direction-multiplexed visible meta-hologram
MA Ansari, I Kim, ID Rukhlenko, M Zubair, S Yerci, T Tauqeer, ...
Nanoscale Horizons 5 (1), 57-64, 2020
912020
Highly efficient generation of Bessel beams with polarization insensitive metasurfaces
MR Akram, MQ Mehmood, T Tauqeer, AS Rana, ID Rukhlenko, W Zhu
Optics express 27 (7), 9467-9480, 2019
882019
Effective mode area and its optimization in silicon-nanocrystal waveguides
ID Rukhlenko, M Premaratne, GP Agrawal
Optics letters 37 (12), 2295-2297, 2012
842012
Amino functionalization of carbon dots leads to red emission enhancement
EV Kundelev, NV Tepliakov, MY Leonov, VG Maslov, AV Baranov, ...
The Journal of Physical Chemistry Letters 10 (17), 5111-5116, 2019
812019
Dislocation-induced chirality of semiconductor nanocrystals
AS Baimuratov, ID Rukhlenko, YK Gun’ko, AV Baranov, AV Fedorov
Nano Letters 15 (3), 1710-1715, 2015
782015
Spaser made of graphene and carbon nanotubes
C Rupasinghe, ID Rukhlenko, M Premaratne
ACS nano 8 (3), 2431-2438, 2014
722014
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