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Department Of Materials Science And Engineering Teikyo University | 論文
- HISTOCHEMICAL STUDY OF BILE DUCTULAR CELLS IN CHOLESTASIS
- Preparations and Characterizations of Novel N, N'-Ethylene-Bridged-(S)-Histidyl-(S)-Tyrosine Derivatives and Their Copper(II) Complexes as Models of Galactose Oxidase
- Control Crystallization of Calcium Carbonate in Aqueous Solution with In-Situ Radical Polymerization of Sodium Acrylate as a Latent Inductor for Crystal Nucleation and Growth
- Effect of Heat Treatment Atmosphere on Multistage R-Phase Transformation in an Aged Ti-51.0at%Ni Alloy
- Combination and Interface Structure of 9R Martensite Plate Variants in Ti_Pd_Fe_ Shape Memory Alloy
- Phonon Softening in Au-49.5 at%Cd Alloy
- Effect of Nano-Sized Oxides on Annealing Behaviour of Ultrafine Grained Steels
- High Resolution Electron Microscopy Study of Cementite in Tempered Martensite
- Formation of Silver Nanoparticles in Poly(methyl methacrylate) by UV Irradiation
- Catalytic Addition of Olefinic C-H Bonds to Olefins
- Catalytic Addition of Aromatic Crbon-Hydrogen Bonds to Olefins with the Aid of Ruthenium Complexes
- Microstructure Evolutions at Severely-deformed Austenite/Martensite Interfaces of a Layer-integrated Steel
- Reactivities of Stable Rotamers. XXXIX. Thermal Decomposition of t-Butyl 3-Methyl-3-(substituted 9-triptycyl)peroxybutanoate Rotamers^
- Solid Surface Enhancement Effects on Chemiliuminescence. III. Diaryloxalate as Chemiliuminescence Reagent and Inorganic Materials as Media Solids
- Characteristics of Retained Austenite in Quenched High C-High Cr Alloy Steels
- Separation of Two Subsystems in Nd_Fe_B_ Composite Crystal Utilizing Synchrotron Radiation
- Europium(III)-N, N'-Ethylenebis(L-amino acid) Complexes as New Chiral NMR Lanthanide Shift Reagents for Unprotected α-Amino Acids in Neutral Aqueous Solution
- Ultraviolet-Light-Induced Desorption of Oxygen from SrTiO3 Surfaces
- Ring-Opening Polymerization of 1,1,2,2-Tetramethyl-1,2-disilacyclopentane via Palladium Complex-Catalyzed Si-Si Bond Metathesis
- OS6(2)-6(OS06W0420) Nanoindentation Technique as a Probe for Characteristic Deformation Size