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Design and Mechanical Analysis of Micro Optic-Fiber Mirror |
89.6 |
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Numerical Study in the Flow Field of Micro-Cell Sorter |
89.6 |
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The studying of micro-piezo pressure sensors |
89.6 |
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89.6 |
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89.6 |
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Design and Microfabrication of Microchip Electrophoresis for Bio-analytical Applications |
89.6 |
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Design and Fabrication of High-throughput Microfluidic Chips and Their Applications on Bio-medical Analysis |
90.6 |
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Actuator and Their Applications on Micro-Optics / Micro Grippers |
90.6 |
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A Flexible Skin with Temperature Sensor Arrays |
90.6 |
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Micro Devices for Cell Manipulation Using Dielectrophoretic |
91.6 |
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91.6 |
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91.6 |
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Alumina coated hydroxyapatite concentration gradient material |
91.6 |
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A study of applying MEMS Pressure sensors in wind tunnel experiment |
91.6 |
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Design, Fabrication and Characterization of Semiconductor-Type Oxygen Gas Sensors |
92.6 |
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Design, Fabrication and Characterization of Micro Bio-reactors |
92.6 |
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92.6 |
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92.6 |
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92.6 |
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Design and Fabrication of Novel Micro-pumps and Micro-valves |
92.6 |
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92.6 |
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92.6 |
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92.6 |
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92.6 |
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Integrated Microfluidic Systems for DNA Analysis |
93.5 |
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Design & Fabrication of High-Precision Micro Inclination |
93.6 |
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Study on Sensing Thin Films of Semiconductor-Type Oxygen Gas Sensors |
93.6 |
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Design, Fabrication and Characterization of Micro Probes Integrated with Micro Heaters and Their Applications on Nano-machining |
93.6 |
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Design & Fabrication of Micro-optical Devices and Their Applications on Micro-optics |
93.6 |
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Micromachined Multi-cell-line Device For Cell/particle Counting and Sorting Utilizing Image Detection System |
93.6 |
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Development of Microfluidic Systems with Molecular Imprinting Polymers for Parallel Auto-Sampling of Bio-Samples |
93.6 |
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Design , Fabrication and Characterization of Micromachine-based Cell Chips Integrated with Micro-pumps |
93.6 |
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Microfluidic Chips Integrated with Pneumatic Microvalves and Micropumps and Their Applications on Disease Detection |
93.6 |
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Investigation on Safety Management of Semiconductor Equipments during Installation Process |
93.6 |
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Design, Fabrication of Piezoelectric Actuators and Their Applications on Atomizer/Micro-Mixers |
93.6 |
|
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Study on Delamination of Bottom Paddles of Lead Frames for Semiconductor Packaging |
93.6 |
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Design and fabrication of micromachined sensors on energy consumption measurement for premature infants |
93.6 |
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94.6 |
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94.6 |
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94.6 |
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94.6 |
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94.6 |
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94.6 |
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Automatic Microsystems Based on Nucleic Acids
Amplification for Rapid Infectious Disease Diagnosis |
94.6 |
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94.6 |
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94.6 |
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95.6 |
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95.6 |
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96.6 |
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96.6 |
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96.6 |
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95.6 |
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The Development of Hemoglobin-A1c Conductive Molecularly Imprinted Polymer Biosensor
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95.6 |
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Characterization of Micromachine-based
Polymerase Chain Reaction Microchips
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95.6 |
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Multiple Electrochemical Systems
Using Microfluidic Technology for Detecting Morphine, Nicotine and Bio-indicators
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95.6 |
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Microfluidic systems for SPR sensing using microarray immunoassay
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95.6 |
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Development of Novel Droplet Formation Platforms
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95.6 |
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Microfluidic Systems Integrated with Microlens and Their Applications
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95.6 |
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95.6 |
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A Miniature Polymerase Chain Reaction System for DNA Detection and Quantification
|
96.6 |
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A New Suction-type Microfluidic Reac tion Chip for Polymerase Chain Reaction
|
97.6 |
|
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From Integrated Marketing Communication Approach to Study The Marketing Model of B-to-C Application Service Provider--A Case Study of Nexus Communications International Inc
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97.6 |
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A Fiber Coupling and Cell Manipulating System Utilizing Microfluidic Devices for On-chip Dual-beam Optical Trap-and-Stretch
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97.6 |
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Integrated Microfluidic System for C-reactive Protein Detection
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97.6 |
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IMulti-channel Continuous Cell Culture Platform and Its Applications for Continuous Nano-drug Monitoring
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97.6 |
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A Microfluidic Reverse Transcription-Polymerase Chain Reaction System Integrated with a Fluoresent Detection System for Aquaculture Disease Detection
|
97.6 |
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Integrated Droplet Formation Platforms and Their Applications for Double Emulsion
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97.6 |
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Micro Thermocyclers for Nucleic Acid Amplification with High Thermal Uniformity
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97.6 |
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97.6 |
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Microfluidic Systems Integrated with micromixers and Their Applications
|
98.6 |
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Optically-induced Dielectrophoresis Chip for Biomedical Application
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98.6 |
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Using Active Microfluidic Components for Synthesizing Nanoparticles
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98.6 |
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Micro-Fabricated Capillary Electrophoresis Chip for DNA Pre-concentration and Separation Utilizing a Normally-closed Valve
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98.6 |
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Novel Droplet-Based Microfluidic System and Its Applications for Formation of Magnetic Particles
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98.6 |
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A Magnetic-bead-based Microfluidic System for Rapid Detection of Dengue Fever & Influenza Virus Infection
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98.6 |
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Bulk-heterojunction polymers in optically-induced dielectrophoretic devices for the manipulation of microparticles
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98.6 |
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Bio-Sample Pretreament Utilizing Optically-induced Dieletrophoretic Force and Electroosmosis Effects
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98.6 |
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Development of microfluidic systems for micro-scale animal cell culture- from cell separation, microencapsulation, micro-dispensing to perfusion 3-dimensional cell culture
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99.6 |
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Integrated Microfluidic Systems for the Detection of Cancer, Infectious and Genetic Diseases
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99.6 |
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Electromagnetic thermotherapy system for minimal invasive surgery and organ resection surgery
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99.6 |
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An Integrated Microfluidic System for Fast Detection of C-Reactive Proteins in an Automatic Format
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99.6 |
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Integrated Microfluidic Systems for Rapid Screening of Aptamers
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A Continuous Microfluidic System for Systematic Evolution of Ligands Exponential Enrichment (SELEX)
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Manipulation of Micro-particles by Flexible Optically-Induced Dielectrophoretic Devices Fabricated by Bulk-Heterojunction Polymers |
100.7 |
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Rapid Isolation and Detection of Methicillin-Resistant Staphylococcus Aureus by using an integrated microfluidic system |
100.7 |
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Numerical Simulation and Application in Optically-induced Dielectrophoretic Platform |
100.7 |
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An Integrated Microfluidic Platform for Rapid Tumor Cell Isolation, Counting and Molecular Diagnosis |
100.7 |
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Manipulation and Assembly of Carbon Nanotubes between Electrodes by Utilizing Optically Induced Dielectrophoresis and Dielectrophoresis |
100.7 |
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Development of microfluidic systems for detection of mitochondrial DNA defects |
101.7 |
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Microfluidic systems for separation, counting, sorting, culture and differentiation of stem cells |
101.7 |
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Integrated Microfluidic Systems for Rapid Detection of Influenza Infections and Diagnosis of Oncogenes in Cancer Cells |
102.8 |
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Integrated Molecular Beacon-based Microfluidic System for Rapid Detection of Fish Pathogens |
102.8 |
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Microfluidic Systems for Glycated Hemoglobin Detection |
102.8 |
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Integration of microfluidic devices and an optically-induced dielectrophoresis? devices for medium replacement and cell manipulation and separation |
102.8 |
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A Novel Integrated Microfluidic System for Rapid Screening of Influenza A Virus-Specific Aptamers |
102.8 |
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Carbon Nanotube-based Hot-film and Temperature Sensors Assembled by Optically-Induced Dielectrophoresis |
102.8 |
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A fluorescence in situ hybridization(FISH)microfluidic platform for detection of HER2 over-expression in cancer cells |
103.8 |
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A microfluidic system integrated with buried optical fibers for detection of Phalaenopsis orchid pathogens |
103.8 |
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An Integrated Microfluidic System for Continuous Medium Exchange and Optically-Induced Electroporation |
103.8 |
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Hemostasis Plug for an Electromagnetic Thermo-therapy and Its Application for Liver Laceration |
103.8 |
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An Integrated Microfluidic System for Screening of Peptides Specific to Colon Cancer Cells and Colon Cancer Stem Cells Using the Phage Display Technology |
103.8 |
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Applications of integrated microfluidic systems for molecular diagnosis |
103.8 |
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Application and Screening of Molecular Biomarkers on Integrated Microfluidic Systems |
103.8 |
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Rapid and sensitive measurement of glycated hemoglobin for diabetes monitoring by using a two-aptamer assay on an integrated microfluidic system |
104.8 |
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An Integrated Microfluidic System for Diagnosis of the Resistance of Helicobacter pylori to Quinolone-Based Antibiotics |
104.8 |
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Integrated Microfluidic System for Rapid Detection of the Influenza H1N1 Virus Using a Sandwich-based Aptamer Assay |
104.8 |
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Optically-induced Cell Fusion on a Microfluidic Chip |
104.8 |
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Nucleus Extraction from Cells by Performing Optically-Induced Cell Lysis on a Continuous-flow Platform |
104.8 |
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