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National Institute For Advanced Interdisciplinary Research | 論文
- Large Timesteps in First-Principles Molecular Dynamics Simulations
- Direct Evidence of Ion-dipole Interaction between Imidazolium Cations and Polar Molecules in Ionic Liquid Solutions by Means of Mass Spectrometric Analysis of Clusters
- Crystal Structure of a Samarium (III) Complex of Tripodal Tris(((5-chlorosalicylidene)amino)ethyl)amine
- Crystal Structure of Tris(((5-bromosalicylidene)amino)ethyl)amine
- Topological Mutation of Escherichia coli Dihydrofolate Reductase
- Preparation of Water Soluble Polymer with 8-Quinolinol Group and Its Specific Reactivity with Cd(II)
- Syntheses of Novel Cyclic Polyethers and Their Complexation with Benzene Derivatives
- Binding ability of chitinase onto cellulose : an atomic force microscopy study
- Fundamental Study of Gas Hydrate Formation : Correlation between Structure of Aqueous Solution and Stability of Hydrate Crystal
- Evaluation of hydroxyapatite coating screw at extraction in the canine lumbar spine
- Topography and Local Electrical Properties of Nondoped Polycrystalline Silicon Thin Films Evaluated Using Conductive-Mode Atomic Force Microscopy
- Two-dimensional Structures of Isobutenyl Ether Compounds Possessing Dodecyl and Tridecyl Chains : Effects of Solvent and Tandem Claisen Rearrangement
- Quantitative Evaluation of Dopant Concentration in Shallow Silicon p--n Junctions by Tunneling Current Mapping with Multimode Scanning Probe Microscopy
- Direct Observation of Field Emission Sites in a Single Multiwalled Carbon Nanotube by Lorenz Microscopy
- Conductive-Mode Atomic Force Microscopy Study of Amorphous Silicon Nitride Thin Films
- Phase-Shifting X-Ray Shearing Interferometer
- Quantitative Evaluation of Dopant Concentration in Shallow Silicon p-n Junctions by Tunneling Current Mapping with Multimode Scanning Probe Microscopy (Special Issue : Solid State Devices and Materials)
- P36. Separation mechanism in separation through ultrasonic atomization explained by strings model(Poster Presentation)
- Stability and Reversibility of Thermal Denaturation Are Greatly Improved by Limiting Terminal Flexibility of Escherichia coli Dihydrofolate Reductase.