|
Keynote Speakers |
Tentative Title |
Bio |
|
Yoshinobu Baba
|
Micro- and nanofluidics for single
biomolecule and single cell analysis
Nagoya University,
Japan |
 |
|
Paul Bohn |
Catalytic and
electrochemical transformations in engineered arrays
of
nanopores
University of Notre
Dame, USA |
|
|
Hsueh-Chia Chang |
A portable DNA chip based
on nano-dielectrophoresis and hydrodynamic
shear
University of Notre
Dame, USA |
|
|
Shu-Hui Chen |
Analytical techniques for probing
protein-protein interactions
National Cheng Kung
University, Taiwan, China |
|
|
Yong Chen |
Material patterns and
cellular adaptation
Ecole Normale
Supérieure of Paris, CNRS, France |
|
|
Jaebum Choo |
Application of optical microfluidic
sensor for highly sensitive biological
analysis
Hanyang Unviersity,
South Korea |
|
|
Taek Dong Chung |
Functional ion control on microfluidic
chips
Seoul National
University, South Korea |
|
|
Frantisek Foret |
Vacuum deposition of metal nanolayers
for detection and magnetic
manipulations
Academy of Sciences,
Czech Republic |
|
|
I-Ming Hsing |
Bio-functionalized gold
nanoparticles: synthesis by mononucleotide-mediated
conjugation and
application in biological sensing
Hong Kong University of
Science and Technology, Hong Kong, China |
|
|
Tae Song Kim |
Materials Science and
Engineering (KAIST), South Korea |
|
|
Takehiko Kitamori |
Characterization of extended-nano
fluid and analytical application
The university of
Tokyo, Japan |
|
|
Bingcheng Lin |
Manipulation of droplets on a chip
Dalian Institute of
Chemical Physics, CAS, China |
|
|
Yong-Chien Ling |
Environmental sample pretreatment on a
microfabricated device assisted with
magnetic force
and centrifugal force
National Tsing Hua
University, Taiwan, China |
|
|
Guoan Luo |
Manipulation and
application of microfluidic droplet and laminar flow on
a
chip
Tsinghua University,
China |
|
|
Daniel Ou-Yang |
The optical bottle:
confinement, enrichment and sorting of nanoparticles in
a
microfluidic setting
Lehigh University, USA |
|
|
Jianhua Qin |
Characterizing the behavior of cells
and organism on a chip
Dalian Institute of
Chemical Physics, CAS, China |
|
|
Steven A. Soper |
Modular and Polymer-Based
Fluidic Systems for DNA Analysis: Traversing
through the Macro- to Nano-Domain
Interface
Louisiana State
University, USA |
|
|
Kahp-Yang Suh |
Physically modified microfluidic
channels: from device fabrication to
microenvironment control for cells
Seoul National
University, South Korea |
|
|
Hongbo Sun |
Femtosecond laser
micronanoprocessing for microfluidic systems
Jilin University,
China |
|
|
Patrick Tabeling |
Single cell gene
expression analysis and colloid synthesis with
droplet-based
microfluidic technology
Ecole Superieure de
Physique et de Chimie Industrielles PARIS, France |
|
|
Elisabeth Verpoorte |
Flow-based particle handling in
microfluidic devices
University of
Groningen, The Netherlands |
|
|
Jean-Louis Viovy |
Institute Curie, P ,
France |
|
|
Weijia Wen |
Electrical digitalization and
manipulation of microfluidic droplets
The Hong Kong
University of Science and Technology, China |
|
|
Aaron Wheeler |
Droplet-scale estrogen assays in
breast tissue, blood, and serum
University of Toronto,
Canada |
|
|
Pengyuan Yang |
Micro/nano-analytical
system for proteomics
Fudan University,
China |
|
|
|
Boguslaw Buszewski
|
New solutions and
challenges in chromatography and related techniques.
Quo Vadis Separation
Sciences?
Nicholas Copernicus
University, Poland |
|
|
Vincenzo Cucinotta |
New trends in ligand
exchange capillary electrophoresis
University of Catania,
Italy |
|
|
Salvatore Fanali |
Capillary
electrochromatography-mass spectrometry for analysis and
confirmation testing of
drugs of abuse in human urine
Institute of Chemical
Methodologies, Italy |
|
|
Ying-Sing Fung |
Differential amperometric
dual electrode detection for peak purity assessment
of polyphenols in red wine
after separation by microfluidic chip-capillary
electrophoresis
University of
Hong Kong, Hong Kong, China |
|
|
Paul R. Haddad
|
Electrophoretic separation and
concentration of hypolipidaemic drugs by CE
MS and
CE
University of
Tasmania, Australia |
|
|
Ernst Kenndler |
How can chip electrophoresis
contribute elucidating the infection pathway of a
virus?
Medical University of
Vienna, Austria |
|
|
Hian Kee Lee |
Practical applications of microscale
sample preparation for environmental
and biological
analysis
National University of
Singapore, Singapore |
|
|
Sam Fong Yau Li |
Development of molecular
aptamer beacons for signal transduction proteins
National University of
Singapore, Singapore |
|
|
Ching-Erh Lin |
Enantioseparation of phenothiazines in
combination with extremely large
volume sample
stacking by capillary electrophoresis and enantiomerization
by dynamic capillary
electrophoresis
University National
Taiwan University, Taiwan, China |
|
|
Ziad El Rassi |
Multi affinity approach for in-depth
proteomics analysis
Oklahoma State
University, USA |
|
