B. H. Yalçınkaya Et Al. , "Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming," International Journal of Global Warming , vol.19, no.3, pp.233-250, 2019
Yalçınkaya, B. H. Et Al. 2019. Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming. International Journal of Global Warming , vol.19, no.3 , 233-250.
Yalçınkaya, B. H., Yılmaz, B., & Özilgen, M., (2019). Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming. International Journal of Global Warming , vol.19, no.3, 233-250.
Yalçınkaya, Bahar, BAYRAM YILMAZ, And Mustafa Özilgen. "Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming," International Journal of Global Warming , vol.19, no.3, 233-250, 2019
Yalçınkaya, Bahar H. Et Al. "Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming." International Journal of Global Warming , vol.19, no.3, pp.233-250, 2019
Yalçınkaya, B. H. Yılmaz, B. And Özilgen, M. (2019) . "Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming." International Journal of Global Warming , vol.19, no.3, pp.233-250.
@article{article, author={Bahar Hazal Yalçınkaya Et Al. }, title={Thermodynamic assessment of information transmission in squid’s giant axon may explain why squid populations thrive with global warming}, journal={International Journal of Global Warming}, year=2019, pages={233-250} }