KORKMAZ, F. C. And Gedikli, E. D. 2025. Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns. Ocean Engineering , vol.339 .

KORKMAZ, F. C., & Gedikli, E. D., (2025). Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns. Ocean Engineering , vol.339.

KORKMAZ, Fatih, And Ersegun D. Gedikli. "Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns," Ocean Engineering , vol.339, 2025

KORKMAZ, Fatih C. And Gedikli, Ersegun D. . "Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns." Ocean Engineering , vol.339, 2025

KORKMAZ, F. C. And Gedikli, E. D. (2025) . "Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns." Ocean Engineering , vol.339.

@article{article, author={Fatih Cüneyd KORKMAZ And author={Ersegun D. Gedikli}, title={Bio-inspired flexible structures improve energy capture and reduce wave loads in oscillating water columns}, journal={Ocean Engineering}, year=2025}