Tao Wang
Tao Wang
Institute of Materials Research and Engineering, Singapore
Verified email at imre.a-star.edu.sg - Homepage
Title
Cited by
Cited by
Year
Highly efficent on-chip direct electronic-plasmonic transducers
W Du, T Wang, CA NIJHUIS
US Patent App. 10/254,479, 2019
108*2019
Excitation of propagating surface plasmons with a scanning tunnelling microscope
T Wang, E Boer-Duchemin, Y Zhang, G Comtet, G Dujardin
Nanotechnology 22 (17), 175201, 2011
1062011
Optical properties of single infrared resonant circular microcavities for surface phonon polaritons
T Wang, P Li, B Hauer, DN Chigrin, T Taubner
Nano letters 13 (11), 5051-5055, 2013
892013
On-chip molecular electronic plasmon sources based on self-assembled monolayer tunnel junctions
W Du, T Wang, HS Chu, L Wu, R Liu, S Sun, WK Phua, L Wang, ...
Nature Photonics 10, 274-280, 2016
882016
Highly efficient on-chip direct electronic–plasmonic transducers
W Du, T Wang, HS Chu, CA Nijhuis
Nature Photonics 11, 623, 2017
802017
Highly efficent on-chip direct electronic-plasmonic transducers
W Du, T Wang, CA NIJHUIS
US Patent App. 15/445,408, 2017
802017
Phonon-Polaritonic Bowtie Nanoantennas: Controlling Infrared Thermal Radiation at the Nanoscale
T Wang, P Li, DN Chigrin, AJ Giles, FJ Bezares, OJ Glembocki, ...
ACS Photonics 4 (7), 1753-1760, 2017
762017
Molecular electronic plasmonics
T Wang, CA Nijhuis
Applied Materials Today 3, 73-86, 2016
622016
Surface enhanced infrared spectroscopy with gold strip gratings
T Wang, VH Nguyen, A Buchenauer, U Schnakenberg, T Taubner
Optics Express 21 (7), 9005-9010, 2013
552013
Graphene-Enhanced Infrared Near-Field Microscopy
P Li, T Wang, H Böckmann, T Taubner
Nano letters 14 (8), 4400-4405, 2014
512014
Comparison of DC and AC Transport in 1.5–7.5 nm Oligophenylene Imine Molecular Wires across Two Junction Platforms: Eutectic Ga–In versus Conducting Probe Atomic Forceá…
CSS Sangeeth, AT Demissie, L Yuan, T Wang, CD Frisbie, CA Nijhuis
J. Am. Chem. Soc 138 (23), 7305-7314, 2016
422016
Electrically-Excited Surface Plasmon Polaritons with Directionality Control
Z Dong, HS Chu, D Zhu, W Du, YA Akimov, WP Goh, T Wang, KEJ Goh, ...
ACS Photonics 2 (3), 385-391, 2015
342015
Edge scattering of surface plasmons excited by scanning tunneling microscopy
Y Zhang, E Boer-Duchemin, T Wang, B Rogez, G Comtet, E Le Moal, ...
Optics Express 21 (12), 13938-13948, 2013
322013
Highly Confined and Switchable Mid-Infrared Surface Phonon Polariton Resonances of Planar Circular Cavities with a Phase Change Material
H Sumikura, T Wang, P Li, AKU Michel, A He▀ler, L Jung, M Lewin, ...
Nano letters 19 (4), 2549-2554, 2019
282019
Temporal coherence of propagating surface plasmons
T Wang, G Comtet, E Le Moal, G Dujardin, A Drezet, S Huant, ...
Optics Letters 39 (23), 6679-6682, 2014
222014
Plasmon scattering from holes: from single hole scattering to Young’s experiment
T Wang, E Boer-Duchemin, G Comtet, E Le Moal, G Dujardin, A Drezet, ...
Nanotechnology 25 (12), 125202, 2014
172014
Scattering of electrically excited surface plasmon polaritons by gold nanoparticles studied by optical interferometry with a scanning tunneling microscope
T Wang, B Rogez, G Comtet, E Le Moal, W Abidi, H Remita, G Dujardin, ...
Physical Review B 92 (4), 045438, 2015
162015
Plasmon-Modulated Photoluminescence of Single Gold Nanobeams
A Wan, T Wang, T Yin, A Li, H Hu, S Li, ZX Shen, CA Nijhuis
ACS Photonics 2 (9), 1348-1354, 2015
152015
Understanding the conductive channel evolution in Na: WO 3− x-based planar devices
D Shang, P Li, T Wang, E Carria, J Sun, B Shen, T Taubner, I Valov, ...
Nanoscale 7 (14), 6023-6030, 2015
152015
Large-area, lithography-free, narrow-band and highly directional thermal emitter
X Liu, Z Li, Z Wen, M Wu, J Lu, X Chen, X Zhao, T Wang, R Ji, Y Zhang, ...
Nanoscale 11 (42), 19742-19750, 2019
142019
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