ERKARTAL, M. 2023. Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study. Materials Today Communications , vol.35 .

ERKARTAL, M., (2023). Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study. Materials Today Communications , vol.35.

ERKARTAL, MUSTAFA. "Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study," Materials Today Communications , vol.35, 2023

ERKARTAL, MUSTAFA. "Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study." Materials Today Communications , vol.35, 2023

ERKARTAL, M. (2023) . "Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study." Materials Today Communications , vol.35.

@article{article, author={MUSTAFA ERKARTAL}, title={Extreme flexibility and unusual piezomechanical properties of zinc-alkyl-based metal-organic frameworks: A first principles study}, journal={Materials Today Communications}, year=2023}