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Faculty of Engineering, University of Toyama | 論文
- Mechanical Model of Rotation Frame for Phase Stability and Molecular Conformation in Liquid Crystal System
- Mechanical Rotor Model for Fluorinated Terphenyl Liquid Crystals
- Numerical Evaluation of the Relative Value of Dielectric Anisotropy and Order Parameter in Fluorinated Nematic Liquid Crystals
- Liquid Crystal System as Molecular Machinery : Investigation of Dynamic Impedance Matching between Molecular Core and Terminal Groups Using Rotor-Bearing Model
- White Organic Electroluminescent Devices with Mixed Single Layer (Special Issue on Advanced Emissive Displays)
- Thermodynamic and Magnetic Properties of GdPd Hydride
- Thermodynamic and Magnetic Properties of Pd_Ag_ Hydride
- Magnetic Properties of Palladium and Palladium-Platinum Alloy of Various Hydrogen Content
- Mechanical String Model for Liquid Crystal Ensemble : A Comprehensive Model for Polymorphism : Structure and Mechanical and Thermal Properties of Condensed Matter
- Organic Multi-Function Diodes Operable for Emission and Photo detection Modes
- Top-Absorption Organic Photodiodes Suitable for Device Integration
- Organic Bi-function Matrix Array
- Top-Absorption Organic Photodiodes Suitable for Device Integration
- Organic Bi-Function Matrix Array
- Usability Assessment of Tennis Rackets Using Biomarker (Proceedings of the 54th Meeting of Japan Society of Physiological Anthropology)
- Comparison of Physiological Effect of Rural and Urban Environment : Using Salivary Amylase Activity (Proceedings of the 54th Meeting of Japan Society of Physiological Anthropology)
- 1-9 Circadian Rhythm of Salivary Amylase Activity (AMY) in Rural Environments Satoyama(Proceedings of the 53rd Meeting of Japan Society of Physiological Anthropology)
- 1-8 Physiological Effects of Bathing in Forest Atmosphere (III) : Using Salivary Amylase Activity as an Indicator
- Sprayed Organic Electrophosphorescent Devices with Small Organic Molecules
- Self-Aligned Bank Formation of Organic Electroluminescent Devices Using Ink-Jet Printing Method