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Department of Materials, Physics and Energy Engineering, Nagoya University | 論文
- Improvement of Tone’s Method with Two-Term Rational Approximation
- Explicit Time Integration Scheme Using Krylov Subspace Method for Reactor Kinetics Equation
- Isolation, Purification and Characterization of Cyclomaltooctadecaose (v-Cyclodextrin), Cyclomaltononadecaose (ζ-Cyclodextrin), Cyclomaltoeicosaose (o-Cyclodextrin) and Cyclomaltoheneicosaose (π-Cyclodextrin)
- Isolation, Purification, and Characterization of Cyclomaltotetradecaose (ι-Cyclodextrin), Cyclomaltopentadecaose (κ-Cyclodextrin), Cyclomaltohexadecaose (λ-Cyclodextrin), and Cyclomaltoheptadecaose(μ-Cyclodextrin)
- Complex Formation of Cyclomaltononaose δ-Cyclodextrin (δ-CD) with Macrocyclic Compounds
- Polymorphic Structure of dl-12Hydroxystearic Acid
- Crystal Structure of Cyclomaltodecaose(ε-Cyclodextrin)at 203 K
- Solubilization of C_ into Water by Complexation with δ-Cyclodextrin
- Isolation and Purification of Cyclomaltononaose (δ-CD) from CELDEX SG-30
- Isolation, Purification, and Characterization of Cyclomaltodecaose (ε-Cyclodextrin), Cyclomaltoundecaose (ζ-Cyclodextrin) and Cyclomaltotridecaose (θ-Cyclodextrin)
- Crystal Structure of DL-12-Hydroxystearic Acid
- Enhancement of Water Solubility of Fullerene by Cogrinding with Mixture of Cycloamyloses, Novel Cyclic α-1,4-Glucans, via Solid-Solid Mechanochemical Reaction
- Development of New Solid Angle Quadrature Sets to Satisfy Even- and Odd-Moment Conditions
- Difference in Bioactivity, Initial Cell Attachment and Cell Morphology Observed on the Surface of Hydroxyapatite Ceramics with Controlled Orientation
- Analysis of Uniaxial Alignment Behavior of Nonmagnetic Materials under Static Magnetic Field with Sample Rotation
- Formation and biological affinity evaluation of crystallographically aligned hydroxyapatite( Ceramics for Biomedical Applications in Asian Countries)
- In-Situ Observation of Crystal Alignment under a Magnetic Field Using X-ray Diffraction
- Characterization of Surface Biocompatibility of Crystallographically Aligned Hydroxyapatite Fabricated Using Magnetic Field
- Orientation of Hydroxyapatite C-Axis under High Magnetic Field with Mold Rotation and Subsequent Sintering Process
- Formation of c-axis Aligned Polycrystal Hydroxyapatite Using High Magnetic Field with Mechanical Sample Rotation
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