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Laboratory of Pharmaceutical Physical Chemistry, Gifu Pharmaceutical University | 論文
- Nature of Protein Adsorption in Artificial Tear Solution on Plasma-Irradiated Polymethylmethacrylate Surface
- Plasma-Assisted Immobilization of Heparin onto Low-Density Polyethylene Surface
- Conventional Synthesis of Amphiphilic Block Copolymer Utilized for Polymeric Micelle by Mechanochemical Solid-State Polymerization
- Preparation of Floating Drug Delivery System by Plasma Technique
- Synthesis of DNA Conjugate by Mechanochemical Solid-State Polymerization and Its Affinity Separation of Oligonucleotides Having Single-Base Difference by Capillary Electrophoresis
- Mechanochemical Solid-State Polymerization (XI) : Effect of Water-Insoluble Pharmaceutical Aids on Drug Release from Mechanically Synthesized Polymeric Prodrugs
- Novel and Simple Preparation Method of Matrix-Type Composite Particles for Controlled Drug Release by Mechanical Action
- Nature of Mechanoradical Formation of Substituted Celluloses as Studied by Electron Spin Resonance
- Controlled Release of Insulin from Plasma-Irradiated Sandwitch Device Using Poly-DL-lactic Acid
- A New Drug Delivery System (DDS) Development Using Plasma-Irradiated Pharmaceutical Aids. IV. Controlled Release of Theophylline from Plasma-Irradiated Double-Compressed Tablet Composed of Polycarbonate as a Single Wall Material
- A New Drug Delivery System Using Plasma-Irradiated Pharmaceutical Aids. V. Controlled Release of Theophyline from Plasma-Irradiated Double-Compressed Tablet Composed of a Wall Material Containing Polybenzylmethacrylate
- 5,6-Benzo-2-azabicyclo[2.2.2]octadienone類のダイパイメタン転位の配向選択性における外見変則極性置換基効果
- 5,6-Benzobicyclo[2.2.2]actadiene類のダイパイメタン光転位における配向選択性支配因子について
- Preparation of Floating Drug Delivery System by Pulsed-Plasma Techniques
- Synthesis of Water-Soluble Polymeric Prodrugs Possessing 4-Methylcatechol Derivatives by Mechanochemical Solid-State Copolymerization and Nature of Drug Release
- Preparation of Floating Drug Delivery System by Plasma Techniques
- A New Drug Delivery System Using Plasma-Irradiated Pharmaceutical Aids. IX. Controlled-Release of Theophylline from Double-Compressed Tablet Composed of Cellulose Derivatives as Wall Material
- A New Drug Delivery System Using Plasma-Irradiated Pharmaceutical Aids. VIII. Delayed-Release of Theophylline from Double-Compressed Tablet Composed of Eudragit as Wall Material
- Mechanochemical Solid-State Polymerization (X) : The Influence of Copolymer Structure in Copolymeric Prodrugs on the Nature of Drug Release.
- Mechanochemical Solid-State Polymerization (X) : The Influence of Copolymer Structure in Copolymeric Prodrugs on the Nature of Drug Release