Kyoto University iCeMSInstitute for Integrated Cell-Material Sciences
The perfect tempo within the cells to develop vertebrae
New material captures carbon dioxide
Towards safer, more effective cancer radiation therapy using X-rays and nanoparticles
Structural color through organized microfibrillation in glassy polymer films
Breathing new life into dye-sensitized solar cells
Materials that open in the heat of the moment
Capturing the surprising flexibility of crystal surfaces
Essential modifications for healthy brain function
Mechano-sensing and resistance during development of the fruitfly wing
A new ‘periodic table’ for nanomaterials
Controlling the manufacture of stable aerogels
Building trees: the protein controlling nerve cell branching
A major step towards individualized cancer therapy
Programming synthetic molecular codes to turn genes ‘on’
Shape-memory porous materials provide new possibilities
Culturing cheaper stem cells