#1 Tianlong Zhang, et al. Femtosecond laser-processed pattern on glass substrate for focusing microparticles in fluid. The 80th JSAP autumn meeting 2019, Hokkaido, Japan |
#2 Tianlong Zhang, et al. Femtosecond Laser-etched Glass Pattern for Aligning Particles in Microfluidic Channel. The 92th JLPS meeting 2019, Japan |
#3 Tianlong Zhang, et al. Laser Engraved Microstructure for Arranging Particle Flowing in a Glass Microfluidic Channel. The 81th JSAP autumn meeting 2020, Hokkaido, Japan |
#4 Tianlong Zhang, et al. FOCUSING OF MICROPARTICLES AT LOW REYNOLDS NUMBERS. MicroTAS 2020, Hawaii, USA (peer reviewed international conference) |
#5 Tianlong Zhang, et al. Microstructure to align live cells in microfluidic channels under low-Reynolds-number flow condition. TOIN 15th International Symposium on Biomedical Engineering. 2020. Toin University of Yokohama, Kanagawa, Japan |
#6 Tianlong Zhang, et al. Femtosecond laser engraved grooves in a microfluidic channel for micro-particle separation. The 22nd International Symposium on Laser Precision Microfabrication. 2021. Virtual On-Demand Conference. Japan |
#7 Tianlong Zhang, et al. MICROFLUIDIC PARTICLE SEPARATION USING GLASS STRUCTURES. MicroTAS 2021 (peer reviewed international conference) |
#8 Tianlong Zhang, et al. LASER ENGRAVED GROOVES FOR MICROPARTICLE FOCUSING. MicroTAS 2021 (peer reviewed international conference) #9 Tianlong Zhang, et al. VISCOELASTIC SEPARATION OF DRUG-TREATED E. COLI BY SHAPE. MicroTAS 2022 (peer reviewed international conference) #10 Tianlong Zhang, et al. SIZE-BASED SEPARATION OF E. COLI USING VISCOELASTIC MICROFLUIDICS. MicroTAS 2023. (peer reviewed international conference) |
#11 Tianlong Zhang, et al. SHEATH-AIDED INERTIAL SEPARATION OF BLOOD CELLS BY SIZE. (peer reviewedinternational conference) #12 Tianlong Zhang, et al. CO-FLOW OF NEWTONIAN AND VISCOELASTIC FLUIDS FOR BACTERIA SEPARATION BY SIZE IN A MICROCHANNEL. MicroTAS 2023. (peer reviewed international conference) #13 Tianlong Zhang, et al. SEPARATION OF TWO BACTERIAL SPECIES USING VISCOELASTIC FLOWS. MicroTAS 2023. (peer reviewed international conference) |