Journal Papers

    2024

  • Chen, Jiajie, et al(2024).Highly‐Adaptable Optothermal Nanotweezers for Trapping, Sorting, and Assembling across Diverse Nanoparticles.Advanced Materials, 36(9), 2309143.

    • 2023

  • Chen, Jiajie, et al(2023).CRISPR-powered optothermal nanotweezers: Diverse bio-nanoparticle manipulation and single nucleotide identification. Light: Science & Applications,12(1),273.

  • Zhou, J., Dai, X., Peng, Y., Zhong, Y., Ho, H. P., Shao, Y., ... & Chen, J. (2023). Low-temperature optothermal nanotweezers. Nano Research, 16, 7710–7715.

  • Chen, X., Chen, J., Zhou, J., Dai, X., Peng, Y., Zhong, Y., ... & Shao, Y. (2023). Advances in inorganic nanoparticles trapping stiffness measurement: A promising tool for energy and environmental study. Energy Reviews, 100018.

  • Wu, W., Chen, J., Wang, M., Wang, L., Zheng, X., Li, J., ... & Shao, Y. (2023). Comparison of point detection and area detection for point-scanning structured illumination microscopy. Journal of Innovative Optical Health Sciences.

  • Sang, W., Huang, S., Chen, J., Dai, X., Liu, H., Zeng, Y., ... & Shao, Y. (2023). Wavelength sequential selection technique for high-throughput multi-channel phase interrogation surface plasmon resonance imaging sensing. Talanta258, 124405.

    2022

  • Zhou, J., Dai, X., Jia, B., Qu, J., Ho, H.-P., Gao, B. Z., Shao, Y., Chen, J. (2022). Nanorefrigerative tweezers for optofluidic manipulation. Applied Physics Letters, 120 (16), 163701.

  • Chen, J., Zeng, Y., Zhou, J., Wang, X., Jia, B., Miyan, R., ... & Gu, Y. (2022). Optothermophoretic flipping method for biomolecule interaction enhancement. Biosensors and Bioelectronics, 114084.

  • Zhou, J., Wang, X., Chen, J., Zeng, Y., Gu, D., Gao, B. Z., & Shao, Y. (2022). Polymeric microsphere enhanced surface plasmon resonance imaging immunosensor for occult blood monitoring. Sensors and Actuators B: Chemical350, 130858.

    • 2021

  • Wang, M., Chen, J., Wang, L., Zheng, X., Zhou, J., Zeng, Y., ... & Gao, B. Z. (2021). Recent Progress in the Correlative Structured Illumination Microscopy. Chemosensors9(12), 364.

  • Miyan, R., Wang, X., Zhou, J., Zeng, Y., Qu, J., Ho, H. P., ... & Shao, Y. (2021). Phase interrogation surface plasmon resonance hyperspectral imaging sensor for multi-channel high-throughput detection. Optics Express29(20), 31418-31425.

  • Chen, X., Waller, L., Chen, J., Tang, R., Zhang, Z., Gagne, I., ... & Lo, Y. H. (2021). Label-free image-encoded microfluidic cell sorter with a scanning Bessel beam. Apl Photonics6(7), 076101. (corresponding author).

  • Wang, M., Wang, L., Zheng, X., Zhou, J., Chen, J., Zeng, Y., ... & Gao, B. Z. (2021). Nonlinear scanning structured illumination microscopy based on nonsinusoidal modulation. Journal of Innovative Optical Health Sciences, 2142002. (corresponding author).

    • 2020

  • Wang, X., Zeng, Y., Zhou, J., Chen, J.*, Miyan, R., Zhang, H., ... & Shao, Y.* (2020). Ultrafast Surface Plasmon Resonance Imaging Sensor via the High-Precision Four-Parameter-Based Spectral Curve Readjusting Method. Analytical Chemistry, 2021, 93 (2): 828-833. (corresponding author).

  • Zheng, X. , Li, X. , Lin, Q. , Chen, J. * , & Shao, Y. * (2020). Multi-laser scanning confocal fluorescent endoscopy scheme for subcellular imaging. Progress In Electromagnetics Research, 169, 17-23. (corresponding author).

  • Zeng, Y., Wang, X., Zhou, J., Miyan, R., Qu, J., Ho, H. P., Chen, J.*& Shao, Y.* (2020). High-throughput imaging surface plasmon resonance biosensing based on ultrafast two-point spectral-dip tracking scheme. Optics Express, 28(14), 20624-20633. (corresponding author).

  • Chen, J., Loo, J. F. C., Wang, D., Zhang, Y., Kong, S. K., & Ho, H. P. (2020). Thermal optofluidics: principles and applications. Advanced Optical Materials, 8(1), 1900829.

    • 2019

  • Cong, H., Loo, F. C., Chen, J.*, et al. (2019). Target trapping in situ single cell genetic marker detection with a focused optical beam. Biosensors and Bioelectronics, 133, 236-242. (corresponding author).

    • Before SZU

  • Cong, H, Chen J.*, and Ho H. P. (2018) Trapping, sorting and transferring of micro-particles and live cells using electric current-induced thermal tweezers. Sensors and Actuators B: Chemical, 264: 224-233. (corresponding author).

  • Chen, J., Cong, H., Loo F. C., et al. (2016). Thermal gradient induced tweezers for particles and cells manipulation, Scientific reports, 6, 35814.

  • Chen, J., Kang, Z., Lu, H., et al. (2015). Photochemically synthesized silver nanostructures on tapered fiber as plasmonic tweezers for surface enhanced Raman scattering applications, Vacuum, 118, 171-176. (Cover paper)

  • Chen, J., Kang Z., Wang, G., et al. (2015). Optofluidic guiding, valving, switching and mixing based on plasmonic heating in random gold nanoisland substrate, Lab on a Chip, 15(11), 2504-2512.

  • Chen, J., Kang, Z., Ho, H. (2015). Gold film coated fiber tip for trapping live cells and nanoparticles, Optics letters, 40(17), 3926-3929.

  • Kang, Z., Chen, J., & Ho, H. P. (2016). Surface-enhanced Raman scattering via entrapment of colloidal plasmonic nanocrystals by laser generated microbubble on random gold nano-islands, Nanoscale, 8(19), 10266-10272.

  • Kang, Z., Chen, J., Wu, S. Y., & Ho, H. P. (2015). Plasmonic absorption activated trapping and assembling of colloidal crystals with non-resonant continuous gold films, RSC Advances, 5(127), 105409-105415.

  • Kang,Z., Chen J., Wu S., et al. (2015). Trapping and assembling of particles and live cells on large-scale random gold nano-island substrates, Scientific reports, 5, 9978.

  • Kang, Z., Lu, H., Chen, J., Chen, K., Xu, F., & Ho, H. P. (2014). Plasmonic graded nano-disks as nano-optical conveyor belt. Optics express, 22(16), 19567-19572.

  • Lu, H., Ren, X., Wei, E. I., Chen, J., et al. (2015). Experimental and Theoretical Investigation of Macro-Periodic and Micro-Random Nanostructures with Simultaneously Spatial Translational Symmetry and Long-Range Order Breaking, Scientific reports, 5, 7876.