Lei Shao
Cited by
Cited by
Gold nanorods and their plasmonic properties
H Chen, L Shao, Q Li, J Wang
Chemical Society Reviews 42 (7), 2679-2724, 2013
Understanding the photothermal conversion efficiency of gold nanocrystals
H Chen, L Shao, T Ming, Z Sun, C Zhao, B Yang, J Wang
small 6 (20), 2272-2280, 2010
Unraveling the evolution and nature of the plasmons in (Au core)–(Ag shell) nanorods
R Jiang, H Chen, L Shao, Q Li, J Wang
Advanced Materials 24 (35), OP200-OP207, 2012
Angle-and energy-resolved plasmon coupling in gold nanorod dimers
L Shao, KC Woo, H Chen, Z Jin, J Wang, HQ Lin
ACS Nano 4 (6), 3053-3062, 2010
Advanced Plasmonic Materials for Dynamic Color Display
L Shao, X Zhuo, J Wang
Advanced Materials 30 (16), 1704338, 2018
Growth of Monodisperse Gold Nanospheres with Diameters from 20 nm to 220 nm and Their Core/Satellite Nanostructures
Q Ruan, L Shao, Y Shu, J Wang, H Wu
Advanced Optical Materials 2 (1), 65-73, 2014
Observation of the Fano resonance in gold nanorods supported on high-dielectric-constant substrates
H Chen, L Shao, T Ming, KC Woo, YC Man, J Wang, HQ Lin
ACS Nano 5 (8), 6754-6763, 2011
Shape-dependent refractive index sensitivities of gold nanocrystals with the same plasmon resonance wavelength
H Chen, L Shao, KC Woo, T Ming, HQ Lin, J Wang
The Journal of Physical Chemistry C 113 (41), 17691-17697, 2009
Plasmonic metasurfaces with conjugated polymers for flexible electronic paper in color
K Xiong, G Emilsson, A Maziz, X Yang, L Shao, EWH Jager, AB Dahlin
Advanced Materials 28 (45), 9956-9960, 2016
Universal scaling and Fano resonance in the plasmon coupling between gold nanorods
KC Woo, L Shao, H Chen, Y Liang, J Wang, HQ Lin
ACS Nano 5 (7), 5976-5986, 2011
Gold nanorods: the most versatile plasmonic nanoparticles
J Zheng, X Cheng, H Zhang, X Bai, R Ai, L Shao, J Wang
Chemical Reviews 121 (21), 13342-13453, 2021
(Gold nanorod core)/(polyaniline shell) plasmonic switches with large plasmon shifts and modulation depths
N Jiang, L Shao, J Wang
Advanced Materials 26 (20), 3282-3289, 2014
Distinct plasmonic manifestation on gold nanorods induced by the spatial perturbation of small gold nanospheres
L Shao, C Fang, H Chen, YC Man, J Wang, HQ Lin
Nano Letters 12 (3), 1424-1430, 2012
Photocurrent Enhancement of HgTe Quantum Dot Photodiodes by Plasmonic Gold Nanorod Structures
M Chen, L Shao, SV Kershaw, H Yu, J Wang, AL Rogach, N Zhao
ACS Nano 8 (8), 8208-8216, 2014
Plasmon-controlled forster resonance energy transfer
L Zhao, T Ming, L Shao, H Chen, J Wang
The Journal of Physical Chemistry C 116 (14), 8287-8296, 2012
Gold Nanorod Rotary Motors Driven by Resonant Light Scattering
L Shao, ZJ Yang, D Andrén, P Johansson, M Käll
ACS Nano 9 (12), 12542-12551, 2015
Gold nanobipyramids: An emerging and versatile type of plasmonic nanoparticles
TH Chow, N Li, X Bai, X Zhuo, L Shao, J Wang
Accounts of chemical research 52 (8), 2136-2146, 2019
Mass-based photothermal comparison among gold nanocrystals, PbS nanocrystals, organic dyes, and carbon black
R Jiang, S Cheng, L Shao, Q Ruan, J Wang
The Journal of Physical Chemistry C 117 (17), 8909-8915, 2013
A gold nanocrystal/poly (dimethylsiloxane) composite for plasmonic heating on microfluidic chips
C Fang, L Shao, Y Zhao, J Wang, H Wu
Advanced Materials 24 (1), 94-98, 2011
Plasmonic–molecular resonance coupling: plasmonic splitting versus energy transfer
H Chen, L Shao, KC Woo, J Wang, HQ Lin
The Journal of Physical Chemistry C 116 (26), 14088-14095, 2012
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