3D bioprinting promises engineered tissues with precise structure, composition, and cellular architecture. This biofabrication technology lies at the interface of biology, bioengineering, materials science, and instrumentation. This course will teach some of the latest technologies through fundamental lectures and hands-on 3D bioprinting workshops. Student groups will embark on independent projects to innovate in any aspect or application of 3D bioprinting hardware, wetware, or software. Experience in tissue engineering ( BIOE 260), instrumentation ( BIOE 123), or biomaterials ( MATSCI BIOE 381) is helpful but not required.
4 units · Letter (ABCD/NP)
3D bioprinting promises engineered tissues with precise structure, composition, and cellular architecture. This biofabrication technology lies at the interface of biology, bioengineering, materials science, and instrumentation. This course will teach some of the latest technologies through fundamental lectures and hands-on 3D bioprinting workshops. Student groups will embark on independent projects to innovate in any aspect or application of 3D bioprinting hardware, wetware, or software. Experience in tissue engineering ( BIOE260), instrumentation ( BIOE123), or biomaterials ( MATSCI 381) is helpful but not required.
Offered in Autumn 2025 at Stanford University.