Dong Pyo Kim,
Changjiang Scholar, Intelligent Microfluidics for Advanced Theranostics Lab,
Harbin Institute of Technology, China
Prof. Kim is a Yangtze River chair professor of HIT-Shenzhen, leading to innovative microfluidics for advanced theranostics from 2025, by shifting from POSTECH in Korea. He obtained a Ph.D. in chemistry and a postdoctoral degree in materials engineering, and worked at a national lab and a university for over 30 years in total, since 1993. His career in microfluidic-based continuous-flow synthetic processes encompasses the manufacturing of APIs and bespoke drug delivery systems, as well as the recent development of AI-based autonomous and integrated processes for biopharmaceuticals. He has published 350 peer-reviewed papers and 50 patents. He received the Academic Excellence Award (2017, Korean Chemical Society), Severo Ochoa Visiting Fellowship (2017, Spain), the POSTECHIAN of the Year (2016, POSTECH), The Scientist of the Month (2016, NRF), Yonsan chaired professor (POSTECH,2017), Henry McGee Lecturer (Virginia State Univ, 2021).
Harnessing Microfluidics & Flow Chemistry: A Precision Toolset from Synthesis to Nanomaterials
Saturday, 6 June 2026 at 10:15
Add to Calendar ▼2026-06-06 10:15:002026-06-06 11:15:00Europe/LondonHarnessing Microfluidics and Flow Chemistry: A Precision Toolset from Synthesis to NanomaterialsFlow Chemistry Asia 2026 in Shenzhen, ChinaShenzhen, ChinaSELECTBIOenquiries@selectbiosciences.com
The paradigm of chemical synthesis is shifting from traditional batch-based methods to precision-controlled flow systems. This seminar presents recent breakthroughs in Microfluidics and Flow Chemistry and their transformative impact on the production of micro-, nano-particles, and nanomaterials. I will first discuss our expertise in ultrafast reaction control and rapid synthesis of nanomaterials through precisely controlled processes. Recently, we have focused on AI-based autonomous discovery platforms, where machine learning and microfluidics work in tandem. This system enables precise control of parameters—such as injection rate, concentration, temperature, and reagent mixing ratios—to autonomously design the optimal structure and function of target materials. Furthermore, the sealed microflow reactors enable the conduct of novel chemistry at harsh conditions. In the final part, I will share perspectives on how these AI-driven microfluidic tools can support the precise manufacturing of next-generation drug delivery systems for advanced theranostics.
Add to Calendar ▼2026-06-06 00:00:002026-06-07 00:00:00Europe/LondonFlow Chemistry Asia 2026Flow Chemistry Asia 2026 in Shenzhen, ChinaShenzhen, ChinaSELECTBIOenquiries@selectbiosciences.com
Add to Calendar ▼2026-06-06 10:15:002026-06-06 11:15:00Europe/LondonHarnessing Microfluidics and Flow Chemistry: A Precision Toolset from Synthesis to NanomaterialsFlow Chemistry Asia 2026 in Shenzhen, ChinaShenzhen, ChinaSELECTBIOenquiries@selectbiosciences.com
