JUNE 9-11, 2025 | AUSTIN, TX |
Micro-, and bio-fluidics are highly interdisciplinary fields that involve the study and control of transport processes and related physical and chemical phenomena, typically across multiple length and time scales and also within the human body and biological tissue down to the subcellular level. These fields are advancing rapidly and applications are proliferating, especially in the life sciences and biotechnology. The applications of these fields are broad and encompass a diverse range of areas that include micro total analysis systems (MicroTAS), lab-on-a-chip (LOC) technology, point-of-care (POC) clinical diagnostics, organs-on-chip, drug discovery and delivery, on-chip sensors, high-throughput systems, methods for computational fluid dynamics, nanofluids and many others. The aim of this symposium is to provide a forum to discuss fundamental phenomena and advances in these fields, associated technologies and current and emerging commercial applications.
Submit Abstract - due January 24 »
Please first review the information for authors — abstract submission guidelines.
Biomimetic Microengineering of the Human Intestine and Host-Microbiome Interactions
Scientist,Cleveland Clinic
Replacing centrifugation with high-throughput microfluidic cell separation for blood transfusion and cellular therapy applications
Professor,University of Houston
Back to Top ↑2024 Symposium Sessions | ||
Monday June 17 | ||
1:30 | Micro & Bio Fluidics, Lab-on-Chip | |
2024 Symposium Program | ||
Monday June 17 | ||
1:30 | Micro & Bio Fluidics, Lab-on-Chip | National Harbor 6 |
Session chair: Kwang W. Oh, University at Buffalo SUNY, US | ||
Teeny tiny flows and tissue development C. Nelson, Princeton University, US | ||
Miniaturized, inexpensive, and rugged dressings for AI-powered monitoring and rapid closure of chronic wounds A.J. Bandodkar, North Carolina State University, US | ||
Lateral flow assay for quantitative detection of biomarker in saliva K-Y Hwang, ctbio, KR | ||
Using Electrochemical Impedance Spectroscopy to determine the change in dielectric properties of the membranes of malignant cells K.H. Tantawi, University of Tennessee at Chattanooga, US | ||
XPORT ENTRAP: Droplet Microfluidic Platform for Enhanced DNA Transfer Between Microbial Species J.A. Wippold, M.J. Chu, B.L. Adams, A. Han, U.S. Army Combat Capabilities Development Command – Army Research Laboratory, SynBio Tools Branch, Biology and Biological Sciences Division, Army Research Directorate, US | ||
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2024 SPONSORS & PARTNERS
2024 SBIR/STTR AGENCY PARTNERS
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