Ince, O. K. Et Al. 2020. Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas. Atomic Spectroscopy , vol.41, no.4 , 175-180.

Ince, O. K., Kandemir, F. M., Ince, M., Benzer, F., Onal, A., & Küçükler, S., (2020). Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas. Atomic Spectroscopy , vol.41, no.4, 175-180.

Ince, Olcay Et Al. "Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas," Atomic Spectroscopy , vol.41, no.4, 175-180, 2020

Ince, Olcay K. Et Al. "Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas." Atomic Spectroscopy , vol.41, no.4, pp.175-180, 2020

Ince, O. K. Et Al. (2020) . "Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas." Atomic Spectroscopy , vol.41, no.4, pp.175-180.

@article{article, author={Olcay Kaplan Ince Et Al. }, title={Investigation of curcumin role on doxorubicin-induced tissue damage in terms of trace metal levels using etaas}, journal={Atomic Spectroscopy}, year=2020, pages={175-180} }