![](/microtas2021/images/speakers/dicarlo_dino.jpg)
LAB ON A PARTICLE TECHNOLOGIES FOR DEMOCRATIZED SINGLE-CELL ASSAYS
Dino Di Carlo
University of California, Los Angeles, USA
![](/microtas2021/images/speakers/ducree_jens.jpg)
EFFICIENT FLUIDIC DESIGN SYNERGISTICALLY EMPOWERED BY A DIGITAL TWIN STRATEGY AND BLOCKCHAIN-BASED CROWDSOURCING
Jens Ducrée
Dublin City University (DCU), IRELAND
![](/microtas2021/images/speakers/eijkel_jan.jpg)
CONTROLLING THE BULK BY THE SURFACE: TAILORING SURFACE GEOMETRY AND CHEMISTRY FOR MICROFLUIDIC APPLICATIONS IN VARIOUS FIELDS
Jan Eijkel
University of Twente, NETHERLANDS
![](/microtas2021/images/speakers/friend_james.jpg)
ACOUSTOFLUIDICS AT THE MICRO TO NANO SCALE
James Friend
University of California, San Diego, USA
![](/microtas2021/images/speakers/fordyce_polly.jpg)
LEVERAGING MICROFLUIDICS FOR HIGH-THROUGHPUT BIOPHYSICS, BIOCHEMISTRY, AND SINGLE-CELL BIOLOGY
Polly Fordyce
Stanford University, USA
![](/microtas2021/images/speakers/garciacordero_joseluis.jpg)
MICROFLUIDIC SYSTEMS AND AI TO STUDY IMMUNE CELLS
Jose Luis Garcia Cordero
Gobierno de México, MEXICO
![](/microtas2021/images/speakers/huang_yanyi.jpg)
HIGHLY ACCURATE NUCLEIC ACID SEQUENCING THROUGH MICROFLUIDICS
Yanyi Huang
Peking University, CHINA
![](/microtas2021/images/speakers/linnes_jacqueline.jpg)
NANOPARTICLE-BASED POINT-OF-CARE MOLECULAR DIAGNOSTICS
Jacqueline Linnes
Purdue University, USA
![](/microtas2021/images/speakers/merten_christoph.jpg)
DROPLET MICROFLUIDICS IN PERSONALIZED MEDICINE, ANTIBODY DISCOVERY AND IMMUNE REPERTOIRE SEQUENCING
Christoph Merten
Swiss Federal Institute of Technology Lausanne (EPFL), SWITZERLAND
![](/microtas2021/images/speakers/pompano_rebecca.jpg)
COMBINING MICROFLUIDICS WITH LIVE TISSUE EXPLANTS TO MODEL LOCAL AND MULTI-ORGAN IMMUNITY
Rebecca Pompano
University of Virginia, USA
![](/microtas2021/images/speakers/sochol_ryan.jpg)
FLUIDUM IN MACHINA: 3D-PRINTED MICROFLUIDIC CIRCUITRY FOR SOFT ROBOTICS
Ryan Sochol
University of Maryland, College Park, USA
![](/microtas2021/images/speakers/theberge_ashleigh.jpg)
OPEN MICROFLUIDIC ORGAN MODELS AND METHODS FOR AT-HOME BLOOD TRANSCRIPTOMICS
Ashleigh Theberge
University of Washington, USA