|
Confirmed invited speakers until Sep. , 2011 |
| ¡¡ |
¡¡ |
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l
Yoshinobu Baba |
Nagoya University, Nagoya 464-8603, JAPAN |
|
Nanobiodevice for single
biomolecular and cellular analysis for cancer diagnosis and in
vivo imaging
for stem cell therapy |
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¡¡ |
|
l
Georges Guiochon |
University of Tennessee, Knoxville,USA |
|
Recent progress in column technology |
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l
Frantisek Svec |
University of California at Berkeley, USA |
|
Porous polymer monoliths and nanotechnology: A combination
enabling the preparation of highly efficient columns for small
molecules |
| ¡¡ |
¡¡ |
|
l
Nobuo Tanaka |
GL Sciences, Inc., and Kyoto Institute of Technology, Kyoto,
Japan |
|
High-performance LC columns, sub 2-micron particles, core-shell
particles, and monolithic
columns |
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¡¡ |
|
l
Jan van der Greef |
Leiden University, Netherlands |
|
Connecting the dots, from system measurements to understanding
biology |
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Rainer Bischoff |
University of Groningen, The Netherlands |
|
Proteomic analysis of human Epithelial Lining Fluid for
biomarker discovery in Chronic Obstructive
Pulmonary Disease (COPD) |
|
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¡¡ |
|
l
Bezhan Chankvetadze |
Tbilisi State University, Republic of Georgia |
|
Recent studies for understanding enantiomer separation
mechanisms in capillary electrophoresis |
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l
Steven Cohen |
Waters Corporation, USA |
|
Developing a high performance microfluidic UHPLC system designed
for life science applications |
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¡¡ |
|
l
Gert Desmet |
Vrije
University
Brussel,
Belgium |
|
HPLC-on-a-chip: Microfabricated
Pillar Array Columns |
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¡¡ |
|
l
Martin Gilar |
Waters Corporation, Milford, USA |
|
Promise and limitations of microfluidic liquid chromatography |
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¡¡ |
|
l
Paul Haddad |
University of Tasmania, Tasmania, Australia |
|
Extending the Scope of Ion Chromatography |
|
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¡¡ |
|
l
Thomas
Hankemeier |
Leiden University, The Netherlands |
|
Metabolomics: Emerging New Technology Platforms |
| ¡¡ |
¡¡ |
|
l
Emily Hilder |
University of Tasmania, Australia |
|
Novel Monolithic Cryopolymers Incorporating Functional
Nanoparticles |
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l
G¨¦rard Hopfgartner |
University of Geneva, Geneva, Switzerland |
|
Hyphenation of liquid chromatography with mass spectrometry:
multidimensional approaches for
qual/quan strategies |
| ¡¡ |
¡¡ |
|
l
Yasushi Ishihama |
Kyoto University, Japan |
|
One-shot proteomics and phosphoproteomics with wider dynamic
range by meter-long capillary
monolithic columns |
| ¡¡ |
¡¡ |
|
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Hans-Gerd Janssen |
Unilever Research Vlaardingen, the Netherlands |
|
NOVEL
AND ESTABLISHED APPLICATIONS OF LIQUID CHROMATOGRAPHY IN
FOOD ANALYSIS£¨Tutorial
Lecture£© |
|
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¡¡ |
|
l
Takehiko Kitamori |
The University of Tokyo, Japan |
|
pL Ultra-Fast HPLC Using Extended-Nano Channel on Microchip |
|
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l
Milton Lee |
Brigham Young University, USA |
|
Improving Chromatographic Efficiency of Organic Polymer
Monoliths in Capillary LC |
| ¡¡ |
¡¡ |
|
l
Hian Kee Lee |
National University of Singapore, Singapore |
|
Miniaturized Liquid-Phase Extractions and their Potential for
Onsite Sample Preparation
of Environmental Aqueous Samples |
|
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l
Wolfgang Lindner |
University of Vienna, Vienna, Austria |
|
The Potential of Chiral Ion Exchangers for Stereoisomer
Separations in LC |
| ¡¡ |
¡¡ |
|
l
David Lloyd |
Bristol-Myers Squibb, New York, USA |
|
Chromatographic Analysis of Functionalized Polyethylene Glycols
Used for Protein PEGylation |
|
¡¡ |
|
l
Philip Marriott |
Royal Melbourne Institute of Technology
University, Melbourne, Australia |
|
Comprehensive 2D Liquid
Chromatography (LCxLC) Analysis of Nonylphenol
Polyethoxylates by Using
HILICxRPLC Methodology |
|
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|
l
Koji Otsuka |
Kyoto University, Kyoto, Japan |
|
Highly sensitive separations by microscale electrophoresis using
on-line sample concentration
techniques |
| ¡¡ |
¡¡ |
|
l
Robert Plumb |
Imperial College, London, UK |
|
Application of Capillary Scale LC/MS/MS in A Micro Fabricated
Device to DMPK and Metabonomics
Studies |
| ¡¡ |
¡¡ |
|
l
Gerard Rozing |
Agilent Technologies, USA |
|
How to select optimal conditions for UHPLC ¨C a tutorial |
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|
l
Philippe Schmitt-Kopplin
GSF Institute of Ecological Chemistry,
Germany
|
|
From metabolomics to bioactivity directed separations:
non-targeted screen of bioactive compounds using separation
techniques and mass spectrometry |
|
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Oliver J. Schmitz |
University of Wuppertal, Wuppertal, Germany |
|
Quality control of TCMs with comprehensive two-dimensional
separation techniques (LCxLC and
GcxGC). |
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Peter Schoenmakers |
University of Amsterdam, The Netherlands |
|
TOWARDS HYPERFORMANCE TWO-DIMENSIONAL LIQUID CHROMATOGRAPHY |
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l
Gerhard Scriba |
Friedrich-Schiller-University Jena, Jena, Germany |
|
Capillary Electrophoresis-Based Assays of Sirtuin Enzymes |
|
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l
George L. Reid |
Pfizer Global Research & Development |
|
Chromatographic Method Development in an Analytical Quality
by Design (AQbD)
Framework |
|
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¡¡ |
|
l
Toyohide Takeuchi |
Gifu University, Japan |
|
Exotic stationary phases for the separation of ions in liquid
chromatography |
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Ulrich Tallarek |
Philipps University, Marburg, Germany |
|
Reconstruction of chromatographic media, their morphological
analysis, and its correlation with
separation efficiency |
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l
Mei Wang |
TNO, Quality of Life, Leiden, The Netherlands |
|
A Systems biology based approach towards Personalized Health
&Herbal medicine quality control |
|
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¡¡ |
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l
Christopher J. Welch |
Merck & Co.,
New Jersey,
USA |
|
Recent developments in the use of chromatography to support
pharmaceutical discovery and
development |
|
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l
Edward S. Yeung |
Iowa State University, Ames, USA |
|
Electrophoretic Migration and Axial Diffusion of Individual
Nanoparticles in Cylindrical
Nanopores |
|
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l
Kenneth J. Shea |
University of California, Irvine,
USA |
|
Plastic Antibodies. Recent Advances in Synthetic Receptors
for Biological Macromolecules |
|
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l
Lei Ye |
Lund University, Lund, Sweden |
|
New molecularly imprinted polymer formats for analytical
separation and sensing |
|
¡¡ |
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l
Attila Felinger |
University of P¨¦cs, P¨¦cs, Hungary |
|
Molecular approaches for the
investigation of transfer phenomena in chromatography |
|
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¡¡ |
|
l Xianlin
Han |
Sanford-Burnham Medical Research Institute at Lake Nona,
Orlando, USA |
|
Identification of thousands of individual lipid molecular
species of a cellular lipidome without an HPLC
separation |
|
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¡¡ |
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l
Janusz
Pawliszyn |
University of Waterloo, Waterloo, Ontario |
|
Solid Phase Microextraction in Metabolomics |
|
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¡¡ |
|
l John
Frenz |
GlobeImmune, Inc. Louisville, USA |
|
Development Challenges for Next-Generation Biologics: Inactivated Recombinant
Yeast as Therapeutic Vaccines |
|
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¡¡ |
|
l
Douglas
Westerlund |
Professor emeritus,
Uppsala university,Sweden |
|
System peaks: A review
on their appearance and effects on analyte peaks |
|
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¡¡ |
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Paola
Dugo |
University of Messina, Messina, Italy |
|
Multidimensional Liquid Chromatography: instrumental aspects,
Method development and future trends |
|
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¡¡ |
|
l
Knut
Irgum |
Umeå University |
|
Probing the Interaction Mechanisms in Hydrophilic Interaction
Chromatography |
|
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¡¡ |
|
l
Yukui Zhang |
Dalian Institute of Chemical Physics, Chinese Academy of
Sciences,
, China |
|
¡¡ |
|
Advance of chromatography research in China |
|
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¡¡ |
|
l Hongyuan
Chen |
Nanjing University,
China |
|
Separation via Biomimesis: Development and Applications of Biomimetic Affinity
Separation Media |
|
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¡¡ |
|
l
Guibin Jiang |
Research Center for Eco-Environmental Sciences, Chinese Academy
of Sciences, China |
|
Analytical Methods for Emerging Chemicals: Challenges and Perspective |
|
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¡¡ |
|
l
Yi Chen |
Institute of Chemistry, Chinese Academy of Sciences, China |
|
Coupling of surface plasmon resonance imaging to separation
techniques |
|
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¡¡ |
|
l Yulin Deng |
College of Life Science, Beijing Institute of Technology, China |
|
Lymphocytic
Salsolinol N-Methyltansferase-Based Biomarker Discovery for
Parkinson¡¯s Disease |
|
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¡¡ |
|
l
Xindu
Geng |
Institute of Modern Separation Science, Northwest University,
China |
|
Fast fingerprint and determination of intact proteins in milk
on locate by liquid chromatography |
|
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¡¡ |
|
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Huwei Liu |
Peking University, China |
|
High-sensitive Detection of Recombinant Human Erythropoietin by
Capillary Electrophoresis Using
NanoOrange Precolumn Labeling and Laser-Induced Fluorescence
Detection |
|
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|
l
Shengxiang Jiang |
Lanzhou Institute of Chemical Physics, Chinese Academy of
Sciences, China |
|
New materials and preparation technologies in solid-phase
microextraction |
|
¡¡ |
|
l
Jinming Lin |
Department of Chemistry, Tsinghua University, China |
|
Development of microextraction technique for high-performance
liquid chromatography
to analysis of additives in complex |
|
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¡¡ |
|
l
Guoan Luo |
Department of Chemistry, Tsinghua University, China |
|
Screening of Potential Biomarkers of Diabetic Nephropathy Based on Quantitative
Metabonomic Platform Technology |
|
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¡¡ |
|
l
Pengyuan Yang
|
Fudan University, China |
|
HPLC-MS On-line proteolysis in top-down strategy of proteomics |
|
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¡¡ |
|
l
Xiaohong Qian |
Academy of Military Medical Sciences, China |
|
Chromatography Technology in Proteomics
Study |
|
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¡¡ |
|
l
Gongke Li |
Sun Yat-sen Univeristy, China |
|
Layer-by-Layer Fabrication of Chemical-Bonded Graphene Coating
for Solid-Phase
Microextraction |
|
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¡¡ |
|
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Zongwei Cai |
Department of Chemistry, Hong Kong Baptist University |
|
Metabolomics for the investigation on TCDD toxicity and
associated diseases: A new
bioanalytical
technique for the old environmental toxicant |
|
¡¡ |
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l
Xiangmin Zhang |
Department of Chemistry, Fudan University, China |
|
Fluorescence labeling protein quantification and identification by high
performance
liquid
chromatography and tandem mass spectrometry |
|
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¡¡ |
|
l
Chao Yan
|
College of Pharmacy, Shanghai Jiaotong University, China |
|
Capillary isoelectric focusing coupled with pressurized
capillary electrochromatography
for peptide and
protein mapping |
|
¡¡ |
¡¡ |
|
l Xinxiang
Zhang
|
Peking University, China |
|
New labeling
agent designed for N-Glycans CE/MS analysis |
|
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¡¡ |
|
l
Hongzhen Lian |
Modern Analysis Center, Nanjing University, China |
|
A Novel Evaluation Method for Extrapolated Retention Factor in Determination of
n-
Octanol/Water
Partition Coefficient of Halogenated Organic
Pollutants by RP-HPLC |
|
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¡¡ |
|
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Jun Dai
|
Analysis and Testing Center, Jiangnan University, China |
|
Study on the methodology of chromatographic fingerprints of polysaccharides from
Ganoderma lucidum
spores and
the relationship of profile-immunocompetence effect |
|
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¡¡ |
|
l
Yan Zhu
|
Zhejiang University, China |
|
Determination of trace ions in complex
matrices by clyling-column-switching ion
chromatography |
|
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¡¡ |
|
l
Jicun Ren
|
Shanghai Jiaotong University, China |
|
Characterization of Quantum Dot Bioconjugates by Capillary Electrophoresis and
Fluorescence
Correlation
Spectroscopy |
|
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¡¡ |
|
l
Zhining Xia |
Chongqing University, China |
|
The Capillary Electrocheromatography Based on Cellar Interaction
and Biomolecular Affinity |
|
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¡¡ |
|
l
Hanfa Zou
|
Dalian Institute of Chemical Physics, Chinese Academy of
Sciences, China |
|
Prepration of hybrid monolithic capillary columns for separation
of biological samples |
|
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¡¡ |
|
l
Bingcheng
Lin
|
Dalian Institute of Chemical Physics, Chinese Academy of
Sciences, China |
|
Microfluidics: key platform for the next generation of
chromatography based
separation and analytical
chemistry/biochemistry
|
|
¡¡ |
|
|
l
Lihua Zhang |
Dalian Institute of Chemical Physics, Chinese Academy of
Sciences, China |
|
Monolithic materials for sample preparation and separation in proteome study |
|
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¡¡ |
|
l
Yafeng
Guan |
Dalian Institute of Chemical Physics, Chinese Academy of
Sciences, China |
|
Investigation on Hollow Fiber Based Liquid-liquid-liquid Micro-extraction with
Different Driving Forces |
|
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¡¡ |
|
l
Xinmiao Liang |
Dalian Institute of Chemical Physics, Chinese
Academy of Sciences, China |
|
Chromatographic Methodology and Technology for Developing TCM |
|
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¡¡ |
|
l
Hongbin Xiao
|
Dalian Institute of Chemical Physics, Chinese
Academy of Sciences, China |
|
Danshen bioactive components¡¯ changes in response to environmental alteration
and investigation of
their
potential biosynthetic pathway |
|
¡¡ |
|
l
Qun Fang |
Zhejiang University, China |
|
Droplet-based Microfluidic Systems with ESI-MS Detection |
|
¡¡ |
¡¡ |
|
l
Jianhua Qin
|
Dalian Institute of Chemical Physics, Chinese
Academy of Sciences, China |
|
Bioinspired microfluidic approach for cell-based drug evaluation |
|
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¡¡ |
|
l
Jiping Chen |
Dalian Institute of Chemical Physics, Chinese
Academy of Sciences, China |
|
Application of Magnesium oxide-based SPE materials in sample pretreatment |
|
¡¡ |
¡¡ |
|
l
Guonan Chen |
Fuzhou University, China |
|
Separation and detection of bioactive peptides using CE-MS |
|
¡¡ |
¡¡ |
|
l
Xiuping Yan |
Nankai University, China |
|
Metal-Organic Frameworks for Analytical Separation |
|
¡¡ |
¡¡ |
|
l
Hailin Wang |
Research Center for Eco-Environmental Sciences, Chinese Academy
of Sciences, China |
|
Capillary Electrophoresis-Laser Induced fluorescence polarization analysis for
mapping
the protein-aptamer
interaction at the single nucleotide levels |
|
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¡¡ |
|
l
Jen-Fon Jen
|
Department of Chemistry, National Chung-Hsing University, Taiwan |
|
In-Situ Microwave-Assisted Synthesized Molecularly Imprinted Polymers Monolith
olumn for The
Extraction of
Thiabendazole in Milks On-line to HPLC Analysis |
|
¡¡ |
¡¡ |
|
l
Maw-Rong Lee
|
Department of Chemistry, National Chung-Hsing University ,
Taiwan |
|
Rapid screening of trace toxins in food by liquid
chromatography- tandem mass spectrometry |
|
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¡¡ |
|
l
Yong-Chien Ling
|
Department of Chemistry, National Tsing Hua University, Taiwan
|
|
Graphene in Sample Preparation£ºFrom Chemical Modification to
Applications |
|
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¡¡ |
|
l
Jentaie Shiea
|
Department of Chemistry, National Sun Yat-Sen University, Taiwan |
|
Rotating Electrospray Ionization for Ultra-High Flow HPLC/MS |
|
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¡¡ |
|
l
Huan-Tsung
Chang |
Department of Chemistry, National Taiwan University, Taiwan |
|
Study of Conformational Dynamics of DNA by CE-LIF |
|
¡¡ |
¡¡ |
|
l
Shou-Mei Wu
|
School of Pharmacy, KAOHSIUNG MEDICAL UNIVERSITY, Taiwan |
|
Analysis of abused drugs in biological samples by capillary electrophoresis |
|
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¡¡ |
|
l
Ming-Ren S. Fuh
|
Department of Chemistry, Soochow University, Taiwan.
|
|
Microfluidic chip-based liquid-chromatography mass spectrometry
for quantitative determination of small
molecules |
|
¡¡ |
¡¡ |
|
l
C. Bor Fuh
|
Department of Applied Chemistry, National Chi Nan
University,Taiwan |
|
Biochemical Analysis of Magnetic Immunoassay Using Functional
Particles In Thin Channels |
|
¡¡ |
¡¡ |
|
l
Youn Yuen Shu
|
Department of Chemistry, National Kaohsiung Normal University,
Taiwan |
|
Determination of pyrethroids in aqueous samples with purge-assisted and
temperature-controlled
headspace
solid-phase microextraction coupled with gas chromatography-mass spectrometry |
|
¡¡ |
¡¡ |
|
l
You-Zung Hsieh
|
Department of Applied Chemistry, National Chiao Tung
University, Taiwan |
|
Analysis of secondary generation antipsychotics in human plasma
by LC-ESI-MS |
|
¡¡ |
¡¡ |
|
l
Thomas
Ching-Cherng
Yang |
Department of Chemistry, National Kaohsiung Normal
University, Taiwan |
|
Application of monolithic capillary and high performance liquid
chromatography for the determination of
parabens in fruit beverages |
|
¡¡ |
¡¡ |
|
l
Cheing Tong Yan
|
Department of Occupational Safety and Health, Chung-Shan Medical
University, Taiwan |
|
Used Micro Dialysis Couple with Chromatographic Analysis Method
apply to the Occupational
Workplace Monitor |
|
¡¡ |
¡¡ |
|
l
Sarahy. Chang |
Department of Chemistry, National Kaohsiung Normal University,
Taiwan |
|
Extraction of
Pharmaceutical Compounds by
Nanoparticles for Surface-Assisted Laser
Desorption/Ionization
Mass Spectrometric Analysis |
|
¡¡ |
¡¡ |
|
l
Guor-Rong Her
|
Department of Chemistry, National Taiwan
University |
|
Signal Enhancement for Liquid Chromatography/Electrospray Ionization-Mass
Spectrometry
with Noncompatible Additive-Containing Mobile Phase by Postcolumn
Electrophoretic Mobility Control |
|
¡¡ |
¡¡ |
|
l
Yan-Bo Yang |
B. Braun Medical, Inc. |
|
Challenges and Opportunities of Applying Separation Technology in the Highly
Regulated
Pharmaceutical
Industries |
|
¡¡ |
¡¡ |
|
l
Guanghou Shui |
National University of Singapore |
|
Understanding the
pathogenesis of neurodegenerative diseases through lipidomic profiling |
|
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¡¡ |
