Kyoto University iCeMSInstitute for Integrated Cell-Material Sciences
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
Coloring the Heartbeat
Mending hearts in three dimensions
Regenerating tissues with gene-targeting molecules
Next-generation drug testing on chips
Getting closer to porous, light-responsive materials
Accessing DNA in the cell’s powerhouse to treat disease
Killing cancer in the heat of the moment
Changing the color of laser light on the femtosecond time scale: How BiCoO3 achieves second harmonic generation
Revolutionary New Materials for Troubled Carbon Times: Super Filters the World Can Afford