Author

Li Jinwen

Nanozen industries Inc. - Cited by 385 - Particle sensing and instrumentation

Biography

Li Jinwen is affiliated to Engineer, Shanghai Academy of Environmental Sciences Qinzhou Road. He is a recipient of many awards and grants for his valuable contributions and discoveries in major area of subject research. His international experience includes various programs, contributions and participation in different countries for diverse fields of study.  His research interests reflect in his wide range of publications in various national and international journals.  
Title
Cited by
Year
3D printed hollow core terahertz Bragg waveguides with defect layers for surface sensing applications
J Li, K Nallappan, H Guerboukha, M SkorobogatiyOptics express 25 (4), 4126-4144, 2017201
121
2017
Synthesis and application of surface-imprinted activated carbon sorbent for solid-phase extraction and determination of copper (II)
Z Li, J Li, Y Wang, Y WeiSpectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 117, 422-427, 2014201
63
2014
A review: Development of novel fiber-optic platforms for bulk and surface refractive index sensing applications
J LiSensors and Actuators Reports 2 (1), 100018, 2020202
48
2020
Experimental methods in chemical engineering: particle size distribution by laser diffraction—PSD
H Li, J Li, J Bodycomb, GS PatienceThe Canadian Journal of Chemical Engineering 97 (7), 1974-1981, 2019201
28
2019
Simultaneous monitoring the real and imaginary parts of the analyte refractive index using liquid-core photonic bandgap Bragg fibers
J Li, H Qu, M SkorobogatiyOptics express 23 (18), 22963-22976, 2015201
21
2015
Squeezed hollow-core photonic Bragg fiber for surface sensing applications
J Li, H Qu, M SkorobogatiyOptics Express 24 (14), 15687-15701, 2016201
21
2016
Optimization of hollow-core photonic Bragg fibers towards practical sensing implementations
J Li, K NallappanOptical Materials Express 9 (4), 40-53, 2019201
16
2019
Photonic Bragg waveguide platform for multichannel resonant sensing applications in the THz range
J Li, H Qu, J WangBiomedical Optics Express 11 (5), 2476-2489, 2020202
14
2020
In-fiber Mach-Zehnder temperature sensor using silicone-oil-filled dual core fiber
C Zhao, H Qiu, H Chen, X Hu, Q Yu, Z Lian, J Li, H QuSensors and Actuators A: Physical 323, 112644, 2021202
13
2021
Study of conductive polymer PEDOT: PSS for infrared thermal detection
J Li, Z Li, J Wang, X ChenOptical Materials Express 9 (11), 4474-4482, 2019201
10
2019
Infrared and THz thermal detection based on an all polymer device
J Li, Z Li, X ChenSensors and Actuators A: Physical 309, 112021, 2020202
6
2020
A dynamically reconfigurable terahertz array antenna for near-field imaging applications
K Nallappan, J Li, H Guerboukha, A Markov, B Petrov, D Morris, ...arXiv preprint arXiv:1705.1024, 2017201
6
2017
Particle tracking and identification using on-chip holographic imaging with inertial separation
J Li, C Zhuang, X Chen, Y Xiong, A EngarnevisOptics & Laser Technology 156, 108602, 2022202
3
2022
Detection of analyte refractive index and concentration using liquid-core photonic Bragg fibers
J Li, H Qu, M SkorobogatiyOptical Fibers and Sensors for Medical Diagnostics and Treatment …, 2016201
3
2016
Hollow core photonic Bragg fibers for industrial sensing applications
J LiEcole Polytechnique, Montreal (Canada), 2017201
3
2017
Three-dimensional Dirac material anode enables concentrated solar thermionic converters
X Zhang, J Li, J Wang, J Guo, YS AngOptics Letters 46 (18), 450-45, 2021202
3
2021
On the sensitivity of liquid-core photonic Bragg fibers
J LiOptical Engineering 58 (5), 057105-057105, 01901
2
2019
Hyperbolic metamaterial structures based on graphene for THz super-resolution imaging applications
S Hao, J Wang, I Fanayev, S Khakhomov, J LiOptical Materials Express 13 (1), 47-6, 030
2
2023
Photonic crystal terahertz leaky-wave antenna
H Guerboukha, J LiarXiv preprint arXiv:209.407, 20220
1
2021
Photonic bandgap fibers—a roadway to all-fiber refractometer systems for monitoring of liquid analytes
H Qu, J Li, M SkorobogatiyOptofluidics, Sensors and Actuators in Microstructured Optical Fibers, 247-283, 20520
1
2015

Referred From: https://scholar.google.com/citations?user=NtoIXmMAAAAJ&hl=en

Cited by
Citations 385
h-index 10
i10-index 10
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