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DEPARTMENT OF APPLIED PHYSICS, GRADUATE SCHOOL OF ENGINEERING, OSAKA UNIVERSITY | 論文
- MN-O3 Rapid detection of malaria-infected erythrocytes using a cell microarray chip(Section X Micro/Nano Technology for Analysis and Cell Manipulation)
- Dissipation of Contact Electrified Electrons on Dielectric Thin films with Silicon Substrate
- Oxidation Site of Polycrystalline Silicon Surface Studied Using Scanning Force / Tunneling Microscope (AFM/STM) in Air
- Simultaneous Imaging of a Graphite Surface with Atomic Force/Scanning Tunneling Microscope (AFM/STM)
- Origin of Anomalous Corrugation Height of STM Images of Graphite
- Anomalous Force Dependence of AFM Corrugation Height of a Graphite Surface in Air
- Laser Deposition of Polymer Micro- and Nanoassembly from Solution Using Focused Near-Infrared Laser Beam
- Off-Centric Concave Transducer for Acoustic Microscopy : Ultrasonic Microscopy and Nondestructive Testing
- Double-Pass Confocal Absorption Microscope with a Phase Conjugation Mirror
- Reduction of the Target Fault List and Fault Simulation Method for Crosstalk Faults in Clock-Delayed Domino Circuits(Special Issue on Test and Verification of VLSI)
- Heat Treatment and Steaming Effects of Silicon Oxide upon Electron Dissipation on Silicon Oxide Surface
- Contact Electrification on Thin Silicon Oxide in Vacuum
- Spatial Distribution and Its Phase Transition of Densely Contact-Electrified Electrons on a Thin Silicon Oxide
- Stable-Unstable Phase Transition of Densely Contract-Electrified Electrons on Thin Silicon Oxide
- Reproducible and Controllable Contact Electrification on a Thin Insulator
- A Practical Liquid Plug Flow-through Polymerase Chain-Reaction System Based on a Heat-Resistant Resin Chip
- Characterization of Sc-O/W(100) Surface as Schottky Emitter : Work Function Change for Activation Processing
- Enhanced Depth Penetration in Imaging of Turbid Biological Samples by Two-Photon Fluorescence Microscopy
- AN IDENTIFICATION METHOD OF DIPOLAR SOURCES IN HOMOGENEOUS SPACE FOR TIME-HARMONIC MAXWELL'S EQUATIONS
- Study of DNA Amplification Efficiency Based on Temperature Analyses of the Moving Fluid in a Liquid-Plug Flow PCR System