スポンサーリンク
Department Of Chemical Engineering Graduate School Of Engineering Tohoku University | 論文
- Novel Cataract Mouse Model Using ddY Strain: Hereditary and Histological Characteristics
- Effects of low protein intake on the development of the remaining kidney in subtotally nephrectomized immature rats : expression of inducible and endothelial NO synthase
- Photo Raman Scattering Study of a Kondo Insulator YbB_
- アルコキシド法により調製したチタン酸バリウムの粒子径及び結晶子径に対する各種実験条件の影響(希土類系物質の精密合成,形態制御および機能物性)
- An Experimental Investigation of the Characteristics of the Secondary Atomization and Spray Combustion for Emulsified Fuel
- Numerical Investigation of Waste Plastic Injection in a Blast Furnace
- A Reducing Method of a Detailed Reaction Mechanism Based on the QSSA Method
- オクタノール/アセトニトリル溶液中での複合アルコキシド法によるチタン酸鉛微粒子の合成とその誘電特性
- Below-Gap Spectroscopy of Undoped GaAs/AlGaAs Quantum Wells by Two-Wavelength Excited Photoluminescene
- チタン酸バリウムストロンチウムナノ粒子添加によるチタン酸ジルコン酸鉛薄膜の低温結晶化
- Fabrication of Monodispersed, Multilayered Silica-Y:Eu-Silica Core-Shell Particles and Their Photonic Crystals
- Direct Drawing of Ag Microwiring by Laser-Induced Pyrolysis of Film Prepared from Liquid-Dispersed Metal Nanoparticles
- Fabrication of Sub-Micron Sized Titania Hollow Spheres
- Synthesis of Silica Particles in the Hydrolysis of Tetraethyl Orthosilicate with Amine Catalysts
- Micro-patterning of Lead Zirconate Titanate Thin Films Seeded with Barium Strontium Titanate Nano-crystalline Particles by Photo-irradiation
- Fabrication of Mono- and Multi-Layers of Submicron-Sized Spheres by a Dip-Coating Technique and Their Transmittance Property
- A Numerical Investigation of the Factors Influencing the Aggregate Shape of Carbon Black from the Furnace Process
- Numerical Investigation for the Effect of Shapes and Arrangement of Inerts on Coke Strength
- Fabrication of BaTiO_3 Micropatterns by a Combination of Laser-Induced Pyrolysis Method and Nano-Crystalline Seeding Technique and Their Dielectric Properties
- A Systematic Design of Fault Tolerant Systolic Arrays Based on Triple Modular Redundancy in Time-Processor Space