Kaiwei Li (李凯伟)
Kaiwei Li (李凯伟)
Associate Professor, Jinan University
Dirección de correo verificada de jnu.edu.cn
Citado por
Citado por
Gold nanoparticle amplified optical microfiber evanescent wave absorption biosensor for cancer biomarker detection in serum
K Li, G Liu, Y Wu, P Hao, W Zhou, Z Zhang
Talanta 120, 419-424, 2014
Polarization-independent and omnidirectional nearly perfect absorber with ultra-thin 2D subwavelength metal grating in the visible region
W Zhou, K Li, C Song, P Hao, M Chi, M Yu, Y Wu
Optics Express 23 (11), A413-A418, 2015
Ultrasensitive optical microfiber coupler based sensors operating near the turning point of effective group index difference
K Li, T Zhang, G Liu, N Zhang, M Zhang, L Wei
Applied Physics Letters 109 (10), 101101, 2016
Side-channel photonic crystal fiber for surface enhanced Raman scattering sensing
N Zhang, G Humbert, T Gong, PP Shum, K Li, JL Auguste, Z Wu, DJJ Hu, ...
Sensors and Actuators B: Chemical 223, 195-201, 2016
Mechanically Durable and Flexible Thermoelectric Films from PEDOT:PSS/PVA/Bi0.5Sb1.5Te3 Nanocomposites
T Zhang, K Li, C Li, S Ma, HH Hng, L Wei
Advanced Electronic Materials 3 (4), 1600554, 2017
High-performance, flexible, and ultralong crystalline thermoelectric fibers
T Zhang, K Li, J Zhang, M Chen, Z Wang, S Ma, N Zhang, L Wei
Nano Energy 41, 35-42, 2017
Ultrasensitive label-free optical microfiber coupler biosensor for detection of cardiac troponin I based on interference turning point effect
W Zhou, K Li, Y Wei, P Hao, M Chi, Y Liu, Y Wu
Biosensors and Bioelectronics 106, 99-104, 2018
Ultrasensitive measurement of gas refractive index using an optical nanofiber coupler
K Li, N Zhang, NMY Zhang, G Liu, T Zhang, L Wei
Optics letters 43 (4), 679-682, 2018
Hybrid Graphene/Gold Plasmonic Fiber‐Optic Biosensor
NMY Zhang, K Li, PP Shum, X Yu, S Zeng, Z Wu, QJ Wang, KT Yong, ...
Advanced Materials Technologies 2 (2), 1600185, 2017
Electron-rich two-dimensional molybdenum trioxides for highly integrated plasmonic biosensing
NMY Zhang, K Li, T Zhang, P Shum, Z Wang, Z Wang, N Zhang, J Zhang, ...
ACS Photonics 5 (2), 347-352, 2018
In-line optofluidic refractive index sensing in a side-channel photonic crystal fiber
N Zhang, G Humbert, Z Wu, K Li, PP Shum, NMY Zhang, Y Cui, ...
Optics Express 24 (24), 27674-27682, 2016
Highly sensitive gas refractometers based on optical microfiber modal interferometers operating at dispersion turning point
NMY Zhang, K Li, N Zhang, Y Zheng, T Zhang, M Qi, P Shum, L Wei
Optics express 26 (22), 29148-29158, 2018
Highly Oriented Electrospun P (VDF‐TrFE) Fibers via Mechanical Stretching for Wearable Motion Sensing
S Ma, T Ye, T Zhang, Z Wang, K Li, M Chen, J Zhang, Z Wang, ...
Advanced Materials Technologies 3 (7), 1800033, 2018
Spectral characteristics and ultrahigh sensitivities near the dispersion turning point of optical microfiber couplers
K Li, NMY Zhang, N Zhang, T Zhang, G Liu, L Wei
Journal of Lightwave Technology 36 (12), 2409-2415, 2018
Flexible piezoelectric fibers for acoustic sensing and positioning
S Wang, T Zhang, K Li, S Ma, M Chen, P Lu, L Wei
Advanced electronic materials 3 (3), 1600449, 2017
Design and analysis of surface plasmon resonance sensor based on high-birefringent microstructured optical fiber
NMY Zhang, DJJ Hu, PP Shum, Z Wu, K Li, T Huang, L Wei
Journal of Optics 18 (6), 065005, 2016
Extraordinary optical absorption based on guided-mode resonance
W Zhou, Y Wu, M Yu, P Hao, G Liu, K Li
Optics letters 38 (24), 5393-5396, 2013
Azimuthally polarized radial emission from a quantum dot fiber laser
N Zhang, H Liu, AM Stolyarov, T Zhang, K Li, PP Shum, Y Fink, XW Sun, ...
Acs Photonics 3 (12), 2275-2279, 2016
Mie scattering-enhanced fiber-optic refractometer
G Liu, Y Wu, K Li, P Hao, P Zhang, M Xuan
IEEE Photonics Technology Letters 24 (8), 658-660, 2012
Laser‐induced in‐fiber fluid dynamical instabilities for precise and scalable fabrication of spherical particles
J Zhang, K Li, T Zhang, PJS Buenconsejo, M Chen, Z Wang, M Zhang, ...
Advanced Functional Materials 27 (43), 1703245, 2017
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20