Okesola, B. O. Et Al. 2020. Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties. BIOMATERIALS SCIENCE , vol.8, no.3 , 846-857.

Okesola, B. O., Lau, H. K., DERKUŞ, B., Boccorh, D. K., Wu, Y., Wark, A. W., ... Kiick, K. L.(2020). Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties. BIOMATERIALS SCIENCE , vol.8, no.3, 846-857.

Okesola, Babatunde Et Al. "Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties," BIOMATERIALS SCIENCE , vol.8, no.3, 846-857, 2020

Okesola, Babatunde O. Et Al. "Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties." BIOMATERIALS SCIENCE , vol.8, no.3, pp.846-857, 2020

Okesola, B. O. Et Al. (2020) . "Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties." BIOMATERIALS SCIENCE , vol.8, no.3, pp.846-857.

@article{article, author={Babatunde O. Okesola Et Al. }, title={Covalent co-assembly between resilin-like polypeptide and peptide amphiphile into hydrogels with controlled nanostructure and improved mechanical properties}, journal={BIOMATERIALS SCIENCE}, year=2020, pages={846-857} }