S. ÖZKAR Et Al. , "Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation," Journal of Physical Chemistry C , vol.127, no.48, pp.23258-23269, 2023
ÖZKAR, S. Et Al. 2023. Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation. Journal of Physical Chemistry C , vol.127, no.48 , 23258-23269.
ÖZKAR, S., MacHale, L. T., & Finke, R. G., (2023). Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation. Journal of Physical Chemistry C , vol.127, no.48, 23258-23269.
ÖZKAR, SAİM, Luke T. MacHale, And Richard G. Finke. "Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation," Journal of Physical Chemistry C , vol.127, no.48, 23258-23269, 2023
ÖZKAR, SAİM Et Al. "Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation." Journal of Physical Chemistry C , vol.127, no.48, pp.23258-23269, 2023
ÖZKAR, S. MacHale, L. T. And Finke, R. G. (2023) . "Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation." Journal of Physical Chemistry C , vol.127, no.48, pp.23258-23269.
@article{article, author={SAİM ÖZKAR Et Al. }, title={Giant, Submicron Size, Yet Nearly Uniform Ir0∼30,000,000 Particles: Synthesis, “Raspberry” Structure, and Resultant Insights into Their Mechanism of Formation}, journal={Journal of Physical Chemistry C}, year=2023, pages={23258-23269} }