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We design and engineer advanced biomaterials and functional nanomaterials that serve as the foundation of next-generation pharmaceutical platforms, enabling precise control over biological processes through material–biological interactions.
We design and engineer advanced biomaterials and functional nanomaterials that serve as the foundation of next-generation pharmaceutical platforms, enabling precise control over biological processes through material–biological interactions.
By treating materials not merely as carriers but as instructive and reactive entities, we explore how their physicochemical properties can be harnessed to regulate biomolecular function, cellular fate, and tissue responses.
By treating materials not merely as carriers but as instructive and reactive entities, we explore how their physicochemical properties can be harnessed to regulate biomolecular function, cellular fate, and tissue responses.
These materials interact with RNA, peptides, proteins, redox networks, and photosensitizers, orchestrating complex therapeutic outcomes within dynamic biological microenvironments.
These materials interact with RNA, peptides, proteins, redox networks, and photosensitizers, orchestrating complex therapeutic outcomes within dynamic biological microenvironments.
Through this materials-centered approach, we aim to bridge advanced materials science and biomedical application, developing pharmaceutical systems that function reliably in both conventional clinical settings and extreme environments, including space life science (Astropharmacy).
Through this materials-centered approach, we aim to bridge advanced materials science and biomedical application, developing pharmaceutical systems that function reliably in both conventional clinical settings and extreme environments, including space life science (Astropharmacy).
Ultimately, our research embodies a modern form of scientific alchemy—the rational transformation of materials into living, adaptive medicines.
Ultimately, our research embodies a modern form of scientific alchemy—the rational transformation of materials into living, adaptive medicines.
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