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Advanced Materials Division Korea Research Institute Of Chemical Technology | 論文
- Exendin-4 Potentiates Insulinotropic Action Partly via Increasing β-Cell Proliferation and Neogenesis and Decreasing Apoptosis in Association With the Attenuation of Endoplasmic Reticulum Stress in Islets of Diabetic Rats
- Electronic Transport through Aromatic Thiol Monolayer Assembled in the Nano Via-Hole Electrode
- The Preparation of ZnGa_2O_4 Doped with Mn-Mg and Tm for Green and Blue Phosphors
- ZnGa_2O_4:Mn Phosphor Particles with Spherical Shape and Clean Surface
- Morphological Control of Zn_2SiO_4:Mn Phosphor Particles by Adding Citric Acid in Spray Pyrolysis Process
- Optimization of Ring Type Electrode Process for High Density PRAM
- Composition and Electrical Properties of Metallic Ru Thin Films Deposited Using Ru(C_6H_6)(C_6H_8) Precursor
- Near-Field Optical Recording of Photochromic Materials Using Bent Cantilever Fiber Probes
- Morphological and Optical Characteristics of Y_2O_3:Eu Phosphor Particles Prepared by Flame Spray Pyrolysis
- Luminescence Characteristics of Eu-doped Strontium Halophosphor Particles Prepared by Spray Pyrolysis
- The Effect of Metal Chloride Fluxes on the Properties of Phosphor Particles in Spray Pyrolysis
- 固体ポリマー電解質膜を用いたポリ(アニリン-N-ブチルスルホネート)のエレクトロクロミック特性
- End Functionalization of Styrene-Butadiene Rubber with Poly (ethylene glycol)-poly (dimethylsiloxane) Terminator
- Surface Characteristics of Electrochemically Modified Carbon Fibers in Phosphoric Acid Solution: Effect of Surface Treatment on Interfacial Mechanical Behaviors of Composites
- Vacuum Ultraviolet Characteristics of Nano-sized Gd_2O_3:Eu Phosphor Particles
- (YGd)BO_3:Eu Phosphor Particles Prepared from the Solution of Polymeric Precursors by Spray Pyrolysis
- Morphological Control of Y_2O_3:Eu Phosphor Particles by Adding Polymeric Precursors in Spray Pyrolysis
- P-35:Nano-Sized Spherical Zinc Silicate Phosphors by Homogeneous Precipitation Method(4.PDP,FED蛍光体)(Report on 2000 SID International Symposium)
- Red-Emitting Phosphor Particles with Spherical Shape, Dense Morphology, and High Luminescent Efficiency under Ultraviolet
- Development of New Hydrogen Storage Material FeTi(Ni) for Improved Hydrogenation Characteristics