SONG Chaolong

Editor:李洁Date:2023-12-05ClickTimes:







Song Chaolong

Professor, doctoral supervisor, winner of Hubei Talent Program

Sex: Male    Date of birth: December 1984

Nationality: Han      Education level: Postgraduate     Degree: PhD

Graduated from: Nanyang Technological University   Title: Professor

Email: songcl@cug.edu.cn

Office: Room 331, No. 2 Teaching Building


Main Experiences:

2016/12-now: Professor, doctoral supervisor, School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)

2014/10-2016/11: Postdoctoral, Rolls Royce R & D Center in Nanyang Technological University

2012/10-2014/09Postdoctoral, Department of Biomedical EngineeringUniversity of Florida

2007/08-2012/08: PhD, School of Mechanical and Aerospace Engineering, Nanyang Technological University

2003/09-2007/06: Bachelor, School of Optoelectronic Science and Engineering, Huzhong University of Science and Technology


Research Fields:

Microfluidic chip advanced control technology: We use the three-dimensional holographic machine vision technology to obtain the microfluidic dynamics parameters in real time, and achieve the precise manipulation of the generation, stagnation, fusion, and classification of microfluidic droplets through a feedback control system.

Advanced optical imaging and detection technology: We use quantitative phase microimaging, photoacoustic microimaging and other techniques to obtain high-throughput functional parameters of the tested cells in microfluidic chips, and also use them for gene expression and phenotype analysis of single cells.

Key technology of hydrogen production equipment through water electrolysis: Based on the theory of gas-liquid multiphase flow in microstructure, the surface topology design of the electrolytic electrode is carried out to break through the bottleneck of complex gas-liquid multiphase flow field analysis and optimization, comprehensively improve the material-energy conversion efficiency in the energy storage process, and effectively reduce the operating cost of the electrolytic cell.


Admission Information:

Welcome the undergraduates and postgraduates who love scientific research and engineering application, have good programming and experimental ability, and graduated from mechanical engineering, electronic engineering, optical engineering, mathematical physics and other related science and engineering majors.


Graduates of the Research Group:

Yan Ruopeng: 5 SCI papers published during masters degree studies, national scholarship winner. After graduation: studying for a doctorate at Wuhan University.

Yang Jinwu: 3 SCI papers published during masters degree studies. After graduation: Huawei Technologies Co., Ltd.

Chen Zhe: 2 SCI papers published during master’s degree studies. After graduation: Guangdong OPPO MOBILE Telecommunications Corp., Ltd.

Yang Yuxuan: 2 SCI papers published during masters degree studies. After graduation: Mindray Medical International Co., Ltd.

Yang Yunran: 2 SCI papers published during masters degree studies. After graduation: Deppon Express.

Zheng Xinqi: 2 SCI papers published during masters degree studies. After graduation: Mindray Medical International Co., Ltd.

Zheng Zhou: 2 SCI papers published during masters degree studies. After graduation: Sany Heavy Industry Co., Ltd.

Luo Yingdong: 6 SCI papers published during masters degree studies, national scholarship winner. After graduation: Supported by a full scholarship to study for a doctorate at the University of Tokyo, Japan.


Programs:

Talent program of Hubei “BR Program” (2020-2024), PI

Applied fundamental frontier project of Wuhan Science and Technology Bureau (2020-2023), PI

CT Scholar” Talent Program of Hubei Province (2018-2022), PI

Youth Program of National Natural Science Foundation of China (2019-2021), PI

Application Foundation Leading-edge Program of Wuhan Science and Technology Bureau (2018-2020), participant

General Program of Youth Foundation of Hubei Province (2017-2018), PI

Cradle Program of China University of Geosciences (Wuhan) (2017-2019), PI

National Research Foundation of Singapore: Corp Lab@University Scheme, participant

Department of Defense of USA: Concept Award for lung cancer research, participant

National Research Foundation of Singapore: Proof-of-Concept project, participant


Selected Publications:

X. Duan, Z. Zheng, Y. Luo, T. Dong, Y. Huang, Y. Li, X. Tu and C. Song*, “Development of robust on-demand droplet generation system using 3-D image reconstruction as feedback”, IEEE Transactions on Industrial Electronics, DOI: 10.1109/TIE.2022.3222658 (2022)

X. Duan, B. Xu, X. Zheng, Z. Zheng, Y. Luo, X. Liu, X. Tu and C. Song*, “3-D Visualization of Magnetic Field Using In-Line Holographic Microscopy for Micro-Magnetofluidic Applications”, IEEE Sensors Journal, Vol. 22, 13, 12700-12707 (2022)

Y. Luo, Z. Zheng, X. Zheng, Y. Li, Z. Che, J. Fang, L. Xi, N.-T. Nguyen and C. Song*, “Model-based feedback control for on-demand droplet dispensing system with precise real-time phase imaging”, Sensors and Actuators: B. ChemicalVol. 365, 131936 (2022)

C. Song, Z. Chen, X. Zheng, S. Yang, X. Duan, Y. Jiang, X. Tu, J. Gan, S. Jiang, “Growth Characteristic Analysis of Haematococcus pluvialis in a Microfluidic Chip Using Digital in-Line Holographic Flow Cytometry”, Analytical Chemistry, Vol. 94(15), 5769-5775 (2022)

X. Tu, J. Wang, Y. Yang, R. Yan, X. Duan and C. Song*, “Chemical reaction monitoring using tunable optofluidic Y-branch waveguides developed with counter-flow”, Microfluidics and Nanofluidics, Vol. 26(4), 1-7 (2022)

A. Sun, T. Li, T. Jin, Y. Li, K. Li, C. Song and L. Xi, “Acoustic Standing Wave Aided Multiparametric Photoacoustic Imaging Flow Cytometry”, Analytical Chemistry, Vol. 93, 44, 14820-14827 (2021)

T. Jin, C., F., X. Chen, G. Liang, F., S. Liang, C. Song, J. Shi, W. Qiu, X. Jiang, K. Li, L. Xi, “On-Chip Multicolor Photoacoustic Imaging Flow Cytometry”, Analytical Chemistry, Vol. 93, 23, 8134-8142 (2021)

X. Zheng, X. Duan, X. Tu, S. Jiang and C. Song*, “The fusion of microfluidics and optics for on-chip detection and characterization of microalgae”, Micromachines, Vol. 12, 10, 1137-1156 (2021)

X. Tu, W. Xie, Z. Chen, M.-F. Ge, T. Huang, C. Song, H.-Y. Fu, “Analysis of Deep Neural Network Models for Inverse Design of Silicon Photonic Grating Coupler”, Journal of Lightwave Technology, Vol. 39, 9, 2790-2799 (2021)

Y. Luo, J. Yang, X. Zheng, J. Wang, X. Tu, Z. Che, J. Fang, L. Xi, N.-T. Nguyen and C. Song*, “Three-dimensional visualization and analysis of flowing droplets in microchannels using real-time quantitative phase microscopy”, Lab on a Chip, Vol. 21, 75-82 (2021) (Back Cover Paper)

C. Song, Y. Yang, X. Tu, Z. Chen, J. Gong, C. Lin, “A smartphone-based fluorescence microscope with hydraulically driven optofluidic lens for quantification of glucose”, IEEE Sensors JournalVol. 21, No.2, 1229-1235 (2020)

Y. Luo, J. Yang, X. Tu, T. Huang, Z. Che, and C. Song*, “Optofluidic phase-shifting digital holographic microscopy for quantitative measurement of microfluidic diffusion dynamics”, Journal of Applied Physics, Vol. 127, No. 13, 134501 (2020)

R. Yan, J. Yang, Y. Yang, X. Tu, T. Huang, M.F. Ge, Y. Liu and C. Song*, “Cloaking object on an optofluidic chip: its theory and demonstration”, Optics Express, Vol. 28, No.12, 18283-18295 (2020)

X. Zhao, Z. Cheng, M. Zhu, T. Huang*, S. Zeng, J. Pan, C. Song, Y. Wang and P. P. Shum, “Study on the dual-Fano resonance generation and its potential for self-calibrated sensing”, Optics Express, Vol. 28, No. 16, 23703-23716 (2020)

T. Huang, D. Zhang, S. Yoo, Q. Wei, R. Sidharthan, Z. Wu, B. Yan, C. Song, and Z. Cheng, “Reconfigurable multiwavelength fiber laser based on multimode interference in highly germanium doped fiber”, Applied Optics, Vol. 59, No. 4, 1163 (2020)

X. Zhao, T. Huang*, S. ZengC. Song, Z. Cheng, X. Wu, P. Huang, J. Pan, Y. Wu, P. P. Shum, “Highly sensitive polarimetric sensor based on Fano resonance for DNA hybridization detection, Plasmonics, (2019).

J. Pan, Z. Chen, T. Huang*, C. Song, P. P. Shum, G. Brambilla, “Fundamental and third harmonic mode coupling induced single soliton generation in Kerr microresonators”, Journal of Lightwave Technology, Vol. 37 (21), 5531-5536 (2019).

R. Yan, Y. Yang, X. Tu, T. Huang, Y. Liu, C. Song*, “Optofluidic light routing via analytically configuring streamlines of microflow”, Microfluidics and Nanofluidics, Vol. 23 (8), 101 (2019)

X. Tu, Y. Luo, T. Huang, J. Gan and C. Song*, “Optofluidic refractive index sensor based on asymmetric diffraction”, Optics Express, Vol. 27 (13), 17809-17818 (2019)

X. Tu, S.L. Chen, C. Song, T. Huang and L.J. Guo, “Ultrahigh Q polymer microring resonators for biosensing applications”, IEEE Photonics Journal, Vol. 11 (2), 1-10 (2019)

X. TuC. Song*, T. Huang, Z. Chen, and H. Fu, “State of the art and perspectives on silicon photonic switches”, Micromachines, Vol. 10, 1 (2019)

F. Liu, T. Jin, R. Yan, T. Li, B. Hu, L. Yao, T. Huang, C. Song*, and L. Xi*, “An opto-acousto-fluidic microscopic system with a high spatiotemporal resolution for microfluidic applications”, Optics Express, Vol. 27, 2 (2019)

T. Huang, J. Pan, Z. Cheng, C. Song, J. Wang, X. Shao, P. P. Shum, and G. Brambilla, “Photon-plasmon coupling for fundamental mode phase-matched third harmonic and triplet photon generation”, Journal of Lightwave Technology, Vol. 36, 18 (2018)

W. Guo, A. Teo, A. M. Ganan-CalvoC. Song, N. T. Nguyen, H. D. Xi, and S. H. Tan, “Pressure-driven filling of closed-end microchannel: realization of comb-shaped transducers for acoustofluidics”, Physical Review Applied, Vol. 10, 5 (2018)

C. Song, Tian Jin, Ruopeng Yan, Weizhi Qi, Tianye Huang, Huafeng Ding, Say Hwa Tan, Nam-Trung Nguyen and Lei Xi, “Opto-acousto-fluidic microscopy for three-dimensional label-free detection of droplets and cells in microchannels”, Lab on a Chip, Vol. 18, 1292-1297 (2018) (Cover Paper)

C. Song*, N. T. Nguyen and S. H. Tan, “Toward the commercialization of optofluidics”, Microfluidics and Nanofluidics, Vol. 21, 139 (2017)

C. Song* and S. H. Tan, “A perspective on the rise of optofluidics and the future”, Micromachines, Vol. 8, 152 (2017)

H. GuoC. Song, H. Xie and L. Xi, “Photoacoustic endomicroscopy based on a MEMS scanning mirror”, Optics Letters, Vol. 42, 4615 (2017)

A. HaridasC. Song, K. Chan and V. M. Murukeshan, “Nondestructive characterization of thermal damages and its interactions in carbon fibre composite panels”, Fatigue & Fracture of Engineering Materials & Structures, Vol. 40 (10), 1562 (2017)

C. Song, Guru Prasad, Kelvin Chan, and Murukeshan V., “Characterization and optimization of illumination translation vector for dimensional parameters measurement of surface form and feature using DSPI”, Review of Scientific Instruments, vol. 87(6), pp. 063116, (2016)

S. R. G. Avila, C. Song, C. D. Ohl, “Fast transient microjets induced by hemispherical cavitation bubbles”, Journal Fluid Mechanics, Vol. 767, pp. 31-51, (2015)

Xi L., C. Song, H. Jiang, "Confocal photoacoustic microscopy using a single multifunctional lens", Optics Letters, Vol. 39, pp. 3328-3331, 2014. (As equally the first author)

C. Song, L. Xi, H. Jiang, "Acoustic lens with variable focal length for photoacoustic microscopy", Journal of Applied Physics, Vol. 114, pp. 194703, (2013)

C. Song, L. Xi, H. Jiang, "Liquid acoustic lens for photoacoustic tomography", Optics Letters, Vol. 38, No. 15, pp. 2930-2933, (2013)

Li H., C. Song, T. D. Luong, N.T. Nguyen, T. N. Wong, "Electrokinetically tunable optofluidic bi-concave lens", Lab on a Chip, Vol. 12, pp. 3680-3687, (2012) (Cover Paper)

C. Song, N.T. Nguyen, A. Asundi, Cassandra Lee-Ngo Low, “A tunable optofluidic aperture configured by liquid core liquid cladding structure”, Optics Letters, Vol. 36, No. 10, pp. 1767-1769 (2011)

C. Song, T. D. Luong, T. F. Kong, N.T. Nguyen, A.K. Asundi, “Disposable flow cytometer with high efficiency in particle counting and sizing using an optofluidic lens”, Optics Letters, Vol. 36, No. 5, pp. 657-659, (2011)

C. Song, N.T. Nguyen, Y.F. Yap, T.D. Luong, A.K. Asundi, “Multi-functional, optofluidic, in-plane, bi-concave lens: tuning light beam from focused to divergent”, Microfluidics and Nanofluidics, Vol.10, No.3, 671-678 (2010)

C. Song, N.T. Nguyen, A. Asundi, S. H. Tan, “A tuneable micro-optofluidic biconvex lens with mathematically predictable focal length”, Microfluidics and Nanofluidics, Vol. 9, No. 4-5, pp. 889-896, (2010)

C. Song, N.T. Nguyen, A. Asundi, S. H. Tan, “Tunable micro-optofluidic prism based on liquid-core liquid-cladding configuration”, Optics LettersVol 35, No. 3, pp. 327-329, (2010)

C. Song, N.T. Nguyen, A. Asundi, Cassandra Lee-Ngo Low, “Biconcave micro optofluidic lens with low-refractive-index liquids”, Optics Letters, Vol. 34, No. 23, pp. 3622-3624, (2009)

C. Song, N.T. Nguyen, S. H., Tan, A. Asundi, “A micro optofluidic lens with short focal length”, Journal of Micromechanics and Microengineering, Vol. 19, No. 8, 085012, (2009)

C. Song, N. T. Nguyen, S. H., Tan and A. Asundi, “Modeling and optimization of micro optofluidic lenses”, Lab on a Chip, Vol. 9, No. 9, pp. 1178–1184, (2009) (Cover Paper)

C. Song, N. T. Nguyen and A. Asundi, “Optical alignment of a cylindrical object”, Journal of Optics A: Pure and Applied Optics, Vol. 1, No. 3, pp. 034008, (2009)