AYCAN, D. Et Al. 2023. Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor. Materials Today Communications , vol.35 .

AYCAN, D., KARACA ALBAYRAK, F., & Alemdar, N., (2023). Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor. Materials Today Communications , vol.35.

AYCAN, DİDEM, FATMA KARACA ALBAYRAK, And NESLİHAN ALEMDAR YAYLA. "Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor," Materials Today Communications , vol.35, 2023

AYCAN, DİDEM Et Al. "Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor." Materials Today Communications , vol.35, 2023

AYCAN, D. KARACA ALBAYRAK, F. And Alemdar, N. (2023) . "Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor." Materials Today Communications , vol.35.

@article{article, author={DİDEM AYCAN Et Al. }, title={Development of hyaluronic acid-based electroconductive hydrogel as a sensitive non-enzymatic glucose sensor}, journal={Materials Today Communications}, year=2023}