Özkayar, G. Et Al. 2020. A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation. MICROMACHINES , vol.11, no.11 .

Özkayar, G., Mutlu, E., Şahin, Ş., Demircan Yalçın, Y., Töral, T., Külah, H., ... Yıldırım, E.(2020). A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation. MICROMACHINES , vol.11, no.11.

Özkayar, Gürhan Et Al. "A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation," MICROMACHINES , vol.11, no.11, 2020

Özkayar, Gürhan Et Al. "A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation." MICROMACHINES , vol.11, no.11, 2020

Özkayar, G. Et Al. (2020) . "A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation." MICROMACHINES , vol.11, no.11.

@article{article, author={Gürhan Özkayar Et Al. }, title={A Novel Microfluidic Method Utilizing a Hydrofoil Structure to Improve Circulating Tumor Cell Enrichment: Design and Analytical Validation}, journal={MICROMACHINES}, year=2020}