Hospodiuk-Karwowski, M. Et Al. 2022. Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering. Composites Part B-Engineering , vol.231 , 109598-109609.

Hospodiuk-Karwowski, M., Bokhari, S. M., Chi, K., Moncal, K. K., Ozbolat, V., Ozbolat, I. T., ... Catchmark, J. M.(2022). Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering. Composites Part B-Engineering , vol.231, 109598-109609.

Hospodiuk-Karwowski, Monika Et Al. "Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering," Composites Part B-Engineering , vol.231, 109598-109609, 2022

Hospodiuk-Karwowski, Monika Et Al. "Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering." Composites Part B-Engineering , vol.231, pp.109598-109609, 2022

Hospodiuk-Karwowski, M. Et Al. (2022) . "Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering." Composites Part B-Engineering , vol.231, pp.109598-109609.

@article{article, author={Monika Hospodiuk-Karwowski Et Al. }, title={Dual-charge bacterial cellulose as a potential 3D printable material for soft tissue engineering}, journal={Composites Part B-Engineering}, year=2022, pages={109598-109609} }