Isik, M. Et Al. 2023. Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids. Acta Biomaterialia , vol.171 , 223-238.

Isik, M., Okesola, B. O., EYLEM, C. C., Kocak, E., NEMUTLU, E., D'Este, M., ... Mata, A.(2023). Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids. Acta Biomaterialia , vol.171, 223-238.

Isik, Melis Et Al. "Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids," Acta Biomaterialia , vol.171, 223-238, 2023

Isik, Melis Et Al. "Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids." Acta Biomaterialia , vol.171, pp.223-238, 2023

Isik, M. Et Al. (2023) . "Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids." Acta Biomaterialia , vol.171, pp.223-238.

@article{article, author={Melis Isik Et Al. }, title={Bioactive and chemically defined hydrogels with tunable stiffness guide cerebral organoid formation and modulate multi-omics plasticity in cerebral organoids}, journal={Acta Biomaterialia}, year=2023, pages={223-238} }