Year |
Citation |
Score |
2020 |
De-Eknamkul C, Zhang X, Zhao MQ, Huang W, Liu R, Johnson ATC, Cubukcu E. MoS-enabled dual-mode optoelectronic biosensor using a water soluble variant of -opioid receptor for opioid peptide detection. 2d Materials. 7. PMID 32523701 DOI: 10.1088/2053-1583/ab5ae2 |
0.341 |
|
2019 |
Zhang X, De-Eknamkul C, Gu J, Boehmke AL, Menon VM, Khurgin J, Cubukcu E. Guiding of visible photons at the ångström thickness limit. Nature Nanotechnology. PMID 31406361 DOI: 10.1038/S41565-019-0519-6 |
0.479 |
|
2019 |
Huang W, De-Eknamkul C, Zhang X, Leewong E, Zhao M, Johnson ATC, Cubukcu E. Monolayer Excitonic Emission for Imaging Spatial Dispersionof Photonic Crystals Acs Photonics. 6: 2312-2319. DOI: 10.1021/Acsphotonics.9B00820 |
0.389 |
|
2018 |
Chien FC, Lo JL, Zhang X, Cubukcu E, Luo YT, Huang KL, Tang X, Chen CS, Chen CC, Lai KY. Nitride-based Microarray Biochips: A New Route of Plasmonic Imaging. Acs Applied Materials & Interfaces. PMID 30372020 DOI: 10.1021/Acsami.8B14962 |
0.429 |
|
2018 |
Zhang X, Biekert N, Choi S, Naylor CH, De-Eknamkul C, Huang W, Zhang X, Zheng X, Wang D, Johnson ATC, Cubukcu E. Dynamic photochemical and optoelectronic control of photonic Fano resonances via monolayer MoS2 trions. Nano Letters. PMID 29376383 DOI: 10.1021/Acs.Nanolett.7B04355 |
0.469 |
|
2017 |
Zhang X, Choi S, Wang D, Naylor CH, Johnson ATC, Cubukcu E. Unidirectional Doubly Enhanced MoS2 Emission via Photonic Fano Resonances. Nano Letters. PMID 28991494 DOI: 10.1021/Acs.Nanolett.7B02777 |
0.41 |
|
2017 |
Hou J, Zhu H, Reed JC, Yi F, Cubukcu E, Bonnell DA. Nanoantenna-induced current enhancement of nano-sized metal/oxide interfaces Applied Physics Letters. 110: 043103. DOI: 10.1063/1.4975060 |
0.356 |
|
2016 |
Yi F, Ren M, Zhu H, Liu W, Agarwal R, Cubukcu E. Electromechanically reconfigurable CdS nanoplate based nonlinear optical device. Optics Express. 24: 13459-13466. PMID 27410362 DOI: 10.1364/Oe.24.013459 |
0.398 |
|
2016 |
Yi F, Ren M, Reed JC, Zhu H, Hou J, Naylor CH, Johnson AT, Agarwal R, Cubukcu E. Optomechanical enhancement of doubly resonant 2D optical nonlinearity. Nano Letters. PMID 26854706 DOI: 10.1021/acs.nanolett.5b04448 |
0.306 |
|
2016 |
Reed JC, Malek SC, Yi F, Naylor CH, Johnson ATC, Cubukcu E. Photothermal characterization of MoS2 emission coupled to a microdisk cavity Applied Physics Letters. 109: 193109. DOI: 10.1063/1.4967187 |
0.424 |
|
2016 |
Zhu H, Yi F, Cubukcu E. Plasmonic metamaterial absorber for broadband manipulation of mechanical resonances Nature Photonics. 10: 709-714. DOI: 10.1038/Nphoton.2016.183 |
0.431 |
|
2015 |
Reed JC, Zhu AY, Zhu H, Yi F, Cubukcu E. Wavelength tunable microdisk cavity light source with a chemically enhanced MoS2 emitter. Nano Letters. 15: 1967-71. PMID 25723816 DOI: 10.1021/Nl5048303 |
0.389 |
|
2014 |
Kuzum D, Takano H, Shim E, Reed JC, Juul H, Richardson AG, de Vries J, Bink H, Dichter MA, Lucas TH, Coulter DA, Cubukcu E, Litt B. Transparent and flexible low noise graphene electrodes for simultaneous electrophysiology and neuroimaging. Nature Communications. 5: 5259. PMID 25327632 DOI: 10.1038/Ncomms6259 |
0.308 |
|
2014 |
Zhu AY, Yi F, Reed JC, Zhu H, Cubukcu E. Optoelectromechanical multimodal biosensor with graphene active region. Nano Letters. 14: 5641-9. PMID 25184967 DOI: 10.1021/Nl502279C |
0.313 |
|
2014 |
Zhu AY, Yi F, Reed JC, Cubukcu E. Cavity-enhanced mid-infrared absorption in perforated graphene Journal of Nanophotonics. 8: 83888-83888. DOI: 10.1117/1.Jnp.8.083888 |
0.429 |
|
2014 |
Yi F, Zhu H, Reed JC, Zhu AY, Cubukcu E. Thermoplasmonic Membrane-Based Infrared Detector Ieee Photonics Technology Letters. 26: 202-205. DOI: 10.1109/Lpt.2013.2292307 |
0.354 |
|
2014 |
Guo Q, Zhu H, Liu F, Zhu AY, Reed JC, Yi F, Cubukcu E. Silicon-on-Glass Graphene-Functionalized Leaky Cavity Mode Nanophotonic Biosensor Acs Photonics. 1: 221-227. DOI: 10.1021/Ph400073W |
0.45 |
|
2013 |
Yi F, Zhu H, Reed JC, Cubukcu E. Plasmonically enhanced thermomechanical detection of infrared radiation. Nano Letters. 13: 1638-43. PMID 23484543 DOI: 10.1021/Nl400087B |
0.414 |
|
2013 |
Liu F, Cubukcu E. A tunable omni-directional sensing platform: strong light-matter interactions enabled by graphene Proceedings of Spie. 8993: 899326. DOI: 10.1117/12.2038173 |
0.364 |
|
2013 |
Liu F, Cubukcu E. Tunable omnidirectional strong light-matter interactions mediated by graphene surface plasmons Physical Review B. 88: 115439. DOI: 10.1103/Physrevb.88.115439 |
0.366 |
|
2013 |
Yi F, Shim E, Zhu AY, Zhu H, Reed JC, Cubukcu E. Voltage tuning of plasmonic absorbers by indium tin oxide Applied Physics Letters. 102. DOI: 10.1063/1.4809516 |
0.482 |
|
2012 |
Reed JC, Zhu H, Zhu AY, Li C, Cubukcu E. Graphene-enabled silver nanoantenna sensors. Nano Letters. 12: 4090-4. PMID 22793868 DOI: 10.1021/Nl301555T |
0.351 |
|
2012 |
Cubukcu E. Metamaterial sensors for infrared detection of molecular monolayers Proceedings of Spie. 8373. DOI: 10.1117/12.919759 |
0.486 |
|
2011 |
Sorger VJ, Pholchai N, Cubukcu E, Oulton RF, Kolchin P, Borschel C, Gnauck M, Ronning C, Zhang X. Strongly enhanced molecular fluorescence inside a nanoscale waveguide gap. Nano Letters. 11: 4907-11. PMID 21978206 DOI: 10.1021/Nl202825S |
0.488 |
|
2009 |
Yu N, Diehl L, Cubukcu E, Bour D, Corzine S, Höfler G, Wojcik AK, Crozier KB, Belyanin A, Capasso F. Coherent coupling of multiple transverse modes in quantum cascade lasers. Physical Review Letters. 102: 013901. PMID 19257192 DOI: 10.1103/PhysRevLett.102.013901 |
0.652 |
|
2009 |
Cubukcu E, Degirmenci F, Kocabas C, Zimmler MA, Rogers JA, Capasso F. Aligned carbon nanotubes as polarization-sensitive, molecular near-field detectors. Proceedings of the National Academy of Sciences of the United States of America. 106: 2495-9. PMID 19196982 DOI: 10.1073/Pnas.0812217106 |
0.535 |
|
2009 |
Capasso F, Yu N, Cubukcu E, Smythe E. Using Plasmonics to Shape Light Beams Optics and Photonics News. 20: 22. DOI: 10.1364/Opn.20.5.000022 |
0.721 |
|
2009 |
Cubukcu E, Capasso F. Optical nanorod antennas as dispersive one-dimensional Fabry-Ṕrot resonators for surface plasmons Applied Physics Letters. 95. DOI: 10.1063/1.3262947 |
0.602 |
|
2009 |
Cubukcu E, Zhang S, Park Y, Bartal G, Zhang X. Split ring resonator sensors for infrared detection of single molecular monolayers Applied Physics Letters. 95: 43113. DOI: 10.1063/1.3194154 |
0.393 |
|
2008 |
Ozcan A, Cubukcu E, Capasso F, Bilenca A, Bouma BE, Tearney GJ. Differential near-field scanning optical microscopy based on sensor arrays Proceedings of Spie. 6865: 686508. DOI: 10.1117/12.762120 |
0.553 |
|
2008 |
Cubukcu E, Yu N, Smythe EJ, Diehl L, Crozier KB, Capasso F. Plasmonic laser antennas and related devices Ieee Journal On Selected Topics in Quantum Electronics. 14: 1448-1461. DOI: 10.1109/Jstqe.2007.912747 |
0.761 |
|
2007 |
Yu N, Cubukcu E, Diehl L, Bour D, Corzine S, Zhu J, Höfler G, Crozier KB, Capasso F. Bowtie plasmonic quantum cascade laser antenna. Optics Express. 15: 13272-81. PMID 19550597 DOI: 10.1364/Oe.15.013272 |
0.715 |
|
2007 |
Yu N, Diehl L, Cubukcu E, Pflügl C, Bour D, Corzine S, Zhu J, Höfler G, Crozier KB, Capasso F. Near-field imaging of quantum cascade laser transverse modes. Optics Express. 15: 13227-35. PMID 19550591 DOI: 10.1364/Oe.15.013227 |
0.665 |
|
2007 |
Smythe EJ, Cubukcu E, Capasso F. Optical properties of surface plasmon resonances of coupled metallic nanorods. Optics Express. 15: 7439-47. PMID 19547067 DOI: 10.1364/Oe.15.007439 |
0.718 |
|
2007 |
Ozcan A, Cubukcu E, Bilenca A, Bouma BE, Capasso F, Tearney GJ. Differential Near-Field Scanning Optical Microscopy Using Sensor Arrays Ieee Journal of Selected Topics in Quantum Electronics. 13: 1721-1729. DOI: 10.1109/Jstqe.2007.910799 |
0.532 |
|
2007 |
Yu N, Cubukcu E, Diehl L, Crozier KB, Capasso F. Plasmonic quantum cascade laser antenna Conference On Lasers and Electro-Optics, 2007, Cleo 2007. DOI: 10.1063/1.2801551 |
0.721 |
|
2006 |
Ozcan A, Cubukcu E, Bilenca A, Crozier KB, Bouma BE, Capasso F, Tearney GJ. Differential near-field scanning optical microscopy. Nano Letters. 6: 2609-16. PMID 17090100 DOI: 10.1021/Nl062110V |
0.52 |
|
2006 |
Cubukcu E, Kort EA, Crozier KB, Capasso F. Plasmonic laser antenna Applied Physics Letters. 89. DOI: 10.1063/1.2339286 |
0.647 |
|
2005 |
Troccoli M, Belyanin A, Capasso F, Cubukcu E, Sivco DL, Cho AY. Raman injection laser. Nature. 433: 845-8. PMID 15729336 DOI: 10.1038/Nature03330 |
0.561 |
|
2004 |
Ozbay E, Guven K, Cubukcu E, Aydin K, Alici BK. Negative Refraction And Subwavelength Focusing Using Photonic Crystals Modern Physics Letters B. 18: 1275-1291. DOI: 10.1142/S0217984904007803 |
0.418 |
|
2003 |
Cubukcu E, Aydin K, Ozbay E, Foteinopoulou S, Foteinopolou S, Soukoulis CM. Subwavelength resolution in a two-dimensional photonic-crystal-based superlens. Physical Review Letters. 91: 207401. PMID 14683392 DOI: 10.1103/Physrevlett.91.207401 |
0.364 |
|
2003 |
Cubukcu E, Aydin K, Ozbay E, Foteinopoulou S, Soukoulis CM. Electromagnetic waves: Negative refraction by photonic crystals. Nature. 423: 604-5. PMID 12789328 DOI: 10.1038/423604B |
0.333 |
|
2003 |
Ozbay E, Aydin K, Cubukcu E, Bayindir M. Transmission and reflection properties of composite double negative metamaterials in free space Ieee Transactions On Antennas and Propagation. 51: 2592-2595. DOI: 10.1109/Tap.2003.817570 |
0.303 |
|
2002 |
Ozbay E, Bayindir M, Bulu I, Cubukcu E. Investigation of localized coupled-cavity modes in two-dimensional photonic bandgap structures Ieee Journal of Quantum Electronics. 38: 837-843. DOI: 10.1109/Jqe.2002.1017595 |
0.399 |
|
2001 |
Bayindir M, Cubukcu E, Bulu I, Ozbay E. Photonic band gaps and localization in two-dimensional metallic quasicrystals Epl. 56: 41-46. DOI: 10.1209/Epl/I2001-00485-9 |
0.376 |
|
2001 |
Bayindir M, Cubukcu E, Bulu I, Tut T, Ozbay E, Soukoulis CM. Photonic band gaps, defect characteristics, and waveguiding in two-dimensional disordered dielectric and metallic photonic crystals Physical Review B. 64. DOI: 10.1103/Physrevb.64.195113 |
0.366 |
|
2001 |
Bayindir M, Cubukcu E, Bulu I, Ozbay E. Photonic band-gap effect, localization, and waveguiding in the two-dimensional Penrose lattice Physical Review B. 63. DOI: 10.1103/Physrevb.63.161104 |
0.382 |
|
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