PAZARBAŞI, A. Et Al. 2023. 6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner. European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom. , (Glasgow, England).

PAZARBAŞI, A., AKSOY, G., EMRE, M., & Karamazı, Y., (2023). 6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner . European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom., Glasgow, England

PAZARBAŞI, AYFER Et Al. "6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner," European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom., Glasgow, England, 2023

PAZARBAŞI, AYFER Et Al. "6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner." European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom. , Glasgow, England, 2023

PAZARBAŞI, A. Et Al. (2023) . "6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner." European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom. , Glasgow, England.

@conferencepaper{conferencepaper, author={AYFER PAZARBAŞI Et Al. }, title={6 GHz Radiofrequency Electromagnetic Field (RF-EMF) Can Decrease Cell Viability of N9 Microglia Cells in Time-Dependent Manner}, congress name={European Human Genetics Conference on June 10-13, 2023. Glasgow, Scotland, United Kingdom.}, city={Glasgow}, country={England}, year={2023}}