Daneshmandi, L., Holt, B. D., Arnold, A. M., Laurencin, C. T., & Sydlik, S. A. (2022). Ultra-low binder content 3D printed calcium phosphate graphene scaffolds as resorbable, osteoinductive matrices that support bone formation in vivo. Nature Portfolio.
Chicago ZitierstilDaneshmandi, Leila, Brian D. Holt, Anne M. Arnold, Cato T. Laurencin, und Stefanie A. Sydlik. Ultra-low Binder Content 3D Printed Calcium Phosphate Graphene Scaffolds As Resorbable, Osteoinductive Matrices That Support Bone Formation in Vivo. Nature Portfolio, 2022.
MLA ZitierstilDaneshmandi, Leila, et al. Ultra-low Binder Content 3D Printed Calcium Phosphate Graphene Scaffolds As Resorbable, Osteoinductive Matrices That Support Bone Formation in Vivo. Nature Portfolio, 2022.