Abbas, Q. Et Al. 2020. Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize. JOURNAL OF HAZARDOUS MATERIALS , vol.390 .

Abbas, Q., Yousaf, B., Ullah, H., Ali, M. U., Zia-ur-Rehman, M., Rizwan, M., ... Rinklebe, J.(2020). Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize. JOURNAL OF HAZARDOUS MATERIALS , vol.390.

Abbas, Qumber Et Al. "Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize," JOURNAL OF HAZARDOUS MATERIALS , vol.390, 2020

Abbas, Qumber Et Al. "Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize." JOURNAL OF HAZARDOUS MATERIALS , vol.390, 2020

Abbas, Q. Et Al. (2020) . "Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize." JOURNAL OF HAZARDOUS MATERIALS , vol.390.

@article{article, author={Qumber Abbas Et Al. }, title={Biochar-induced immobilization and transformation of silver-nanoparticles affect growth, intracellular-radicles generation and nutrients assimilation by reducing oxidative stress in maize}, journal={JOURNAL OF HAZARDOUS MATERIALS}, year=2020}