Dola, D. B. Et Al. 2022. Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits. FRONTIERS IN PLANT SCIENCE , vol.13 .

Dola, D. B., Mannan, M. A., Sarker, U., Al Mamun, M. A., Islam, T., ERCİŞLİ, S., ... Saleem, M. H.(2022). Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits. FRONTIERS IN PLANT SCIENCE , vol.13.

Dola, Dipanjoli Et Al. "Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits," FRONTIERS IN PLANT SCIENCE , vol.13, 2022

Dola, Dipanjoli B. Et Al. "Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits." FRONTIERS IN PLANT SCIENCE , vol.13, 2022

Dola, D. B. Et Al. (2022) . "Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits." FRONTIERS IN PLANT SCIENCE , vol.13.

@article{article, author={Dipanjoli Baral Dola Et Al. }, title={Nano-iron oxide accelerates growth, yield, and quality of Glycine max seed in water deficits}, journal={FRONTIERS IN PLANT SCIENCE}, year=2022}