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会议议题
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Methods: |
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• Microscale liquid chromatography |
• Microchip electrophoresis and |
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• Capillary electrophoresis |
chromatography |
| • Isoelectric focusing |
• Micellar electrokinetic capillary |
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• Capillary electrochromatography |
chromatography |
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• Isotachophoresis |
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Fundamentals and instrumentation: |
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| • Advances in stationary phases: | • Microscale sample preparations |
| monolithic, open-tubular,and particulate- | • Multiplexed and array separations |
| packed stationary phases | • Affinity, kinetic and enzymatic methods |
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• Multi-dimensional separations |
• Method development and optimization |
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• Hyphenation systems of chromatography |
• Foundations of separation and detection |
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and mass-spectrometry |
• Fabrication, Separation and Integrated |
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• Novel detection technology |
analytical systems on chip |
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• Novel separation schemes |
• Computer simulation |
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• Ultra high-performance & high-pressure |
• Bioinformatics and Biostatistics |
| liquid chromatography | |
| Applications: | |
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• Systems Biology: Proteomics, |
• Toxicology, Environmental and |
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Metabolomics, Genomics, and other Omics. |
professional public health |
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• Pharmaceutical applications |
• Bio- and chemical-warfare agent detection |
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• Drug discovery, drug metabolism and |
• Biomarker discovery |
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quality control detection |
• Nanoparticulates |
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• Clinical and molecular diagnostics |
• Food and agricultural analysis |
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• DNA sequencing: next generation |
• Single cell and subcellular analyses |
| technologies |
• Biopolymer analysis |
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• Forensics analysis |
• Emerging applications |
报告题目
| Speaker | Title |
| Daniel W. Armstrong (USA) | • Electrokinetic Microbial Separations: Toward Sterility and Diagnostic Blood Tests |
| Yoshinobu Baba (Japan) | • Micro- and nanofluidics for single biomolecule and single cell analyasis |
| Jeff Chapman (USA) | • Advancing the Performance of CE-MS/MS, Using ESI with a Sheathless Porous Sprayer. |
| David D.Y. Chen (Canada) | • Building a robust interface for high sensitivity capillary electrophoresis mass spectrometry |
| Steven A. Cohen (USA) | • Seamless Integration of Ceramic-based Microfluidic UPLC(tm) Devices with Mass Spectrometry |
| Norman Dovichi (USA) | • Automated method for phosphoproteomics |
| Daniel Figeys (Canada ) | • Proteomic and lipidomic technologies to explore human diseases |
| Frantisek Foret (Czech Republic) | • Microfluidics and nanotechnology for bioanalysis |
| Andras Guttman (Austria) | • Glycosylation pattern analysis of human glycoproteins by affinity chromatography and capillary electrophoresis |
| Paul Haddad (Australia) | • Amphiphilic RAFT nanoparticles as a pseudostationary phase for electrokinetic chromatography |
| Jun Haginaka (Japan) | • Molecularly imprinted microspheres for separation of drug enantiomers |
| William Hancock (USA) | • Glycoprotein (Glycan) Markers for the Early Detection of Breast Cancer |
| Albert Heck (Netherlands) | • Enabling Technologies for the analysis of post-translational modifications |
| Barry L. Karger (USA) | • New Approaches to Characterization of Post-Translational Modifications of Proteins Using LC/MS and CE/MS |
| Robert Kennedy (USA) | • Dynamic Metabolomics Measurements Using CE and Capillary LC |
| Takehiko Kitamori (Japan) | • On-Chip Serum Separation Systems FROM Whole Blood Combining with μ -ELISA |
| X. Chris Le (Canada) | • Nucleic acid probes for bioanalytical detection and separation |
| HianKee Lee (Singapore) | • Microscale sample preparation in biological studies |
| Wolfgang Lindner (Austria ) | • Selected bioactive compounds analysis by dedicated stationary phases |
| Stacey Ma (USA) | • CE in the Biotechnology Industry: a Journey over the Last Decade |
| Luigi Mondello (Italy) | • Comprehensive LCxLC for the study of complex matrices |
| Wassim Nashabeh (USA) | • Regulatory Considerations in Implementing CE in the Biotech Industry |
| Koji Otsuka (Japan) | • Strategies for improving the detectability in microscale electrophoresis |
| Zaid El Rassi (USA) | • Integrated Micro- and Macrofluidics Platforms for Depletion/Concentration/Prefractionation of Proteins in Proteomics Samples |
| Fred Regnier (USA ) | • Use of Glycan Targeting Antibodies to Identify Cancer-Associated Glycoproteins in Human Plasma. |
| Gerard Rozing (Germany) | • Renaissance in High Performance Capillary Electrophoresis? New developments and applications |
| Frantisek Svec (USA) | • Porous polymer monoliths with surface chemistry tailored for high performance |
| Jonathan Sweedler (USA) | • Capillary Electrophoresis Approaches to Measure Cell to Cell Differences in the Neurometabolome |
| Ulrich Tallarek (Germany) | • Preconcentration, separation, and detection on microfluidic platforms |
| Nobuo Tanaka (Japan) | • High efficiency monolithic silica columns for HPLC |
| Shigeru Terabe (Japan) | • Where should MEKC go |
| Yinsheng Wang (USA) | • Development of an LC-MS/MS Method for Assessing the Cytotoxic and Mutagenic Properties of DNA Lesions in Cells. |
| John Yates (USA ) | • Driving Biological Discovery using Multidimensional Separations and Advanced Mass Spectrometry |
| Edward S. Yeung (USA) | • Understanding Bioseparations One Molecule at a Time |
| Richard Zare (USA) | • Extracting Genetic Information FROM Single Cells |
| Yukui Zhang (China) | • Advancement of separation and identification techniques for proteome study |