Furxhi, I. Et Al. 2023. Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms. ACS Applied Nano Materials , vol.6, no.5 , 3948-3962.

Furxhi, I., Bengalli, R., Motta, G., Mantecca, P., KÖSE, Ö., Carriere, M., ... Haq, E. U.(2023). Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms. ACS Applied Nano Materials , vol.6, no.5, 3948-3962.

Furxhi, Irini Et Al. "Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms," ACS Applied Nano Materials , vol.6, no.5, 3948-3962, 2023

Furxhi, Irini Et Al. "Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms." ACS Applied Nano Materials , vol.6, no.5, pp.3948-3962, 2023

Furxhi, I. Et Al. (2023) . "Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms." ACS Applied Nano Materials , vol.6, no.5, pp.3948-3962.

@article{article, author={Irini Furxhi Et Al. }, title={Data-Driven Quantitative Intrinsic Hazard Criteria for Nanoproduct Development in a Safe-by-Design Paradigm: A Case Study of Silver Nanoforms}, journal={ACS Applied Nano Materials}, year=2023, pages={3948-3962} }