Research Subject | Research Organization |
Research and development of marine degradable multi-lock biopolymers from inedible biomass |
Mitsubishi Chemical Corporation |
Development of Non-Food Biomasses Based Biodegrade Rubber Compound in Wear Particle for Tire |
Bridgestone Corporation |
Development of strong and degradable biopolymers for fishing nets |
KUREHA CORPORATION |
Development of multi-lock polymers with complete biodegradability and practical toughness |
The University of Tokyo |
Research and Development of Degradable Supramolecular Polymers with Both Multi-lock Mechanism and Toughness |
The University of Tokyo |
Molecular Dynamics Simulation Study of Multi-Lock Biopolymers and Development of Data Base of Polymer Dissociation and Fracture |
The University of Tokyo |
Structure and Properties of Multi-lock Biopolymer during the Environmental Degradation |
Research Center for Negative Emission Technologies, Kyushu University |
Analysis of Degradation Behaviors of Bio-related Polymers in Underwater Environments and Development of Their Control Methods |
Department of Applied Chemistry, Kyushu University |
Precision Structure Analysis of Polymeric Materials Using Synchrotron Radiation X-rays |
Kyoto Institute of Technology |
Visualization of higher-order structure and intermolecular interaction of polymers by terahertz and low-frequency Raman spectroscopy |
Kobe University |
Development of Degradable Polymers Based on Plant-Derived Renewable Resources |
Nagoya University |
Control of Higher-Order Structure and Toughness of Marine Degradable Polymers through Polymer Processing |
Yamagata University |
Development of Multi-Lock Biopolymers Degradable in Ocean from Non-Food Biomass |
RITE (Research Institute of Innovative Technology for the Earth) |
Precision Polymerization of Plant-Derived Monomers for Multi-Locked Degradable Biopolymers |
Tokyo Institute of Technology |
Design and Evaluation of Molecularly Dismantlable Bio-based Polymers |
Osaka Metropolitan University |
Development and Practical Use of Chemically Degradable Unit for Multi-Locked Polymers prepared by Inedible Biomass |
Shinshu University |
Development of poly(cis-1,4-isoprene)-degrading enzyme for establishment of natural rubber biodegradation technology |
Nagaoka University of Technology |
Research and development of multi-scale analysis methods for marine degradable polymers from a hierarchical point of view |
AIST (National Inst. Advanced Industrial Science and Technology) |
Development of a prediction model for long-term impacts of multi-locked new polymers on the marine environment |
Ehime University, Graduate school of science and engineering, |
Development of evaluation of Multi-Lock Biopolymers biodegradability |
(CERI) Chemical Evaluation and Research Institute, Japan |