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Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material

C. Y. Karakas Et Al. , "Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material," Journal of Applied Polymer Science , vol.140, no.46, 2023

Karakas, C. Y. Et Al. 2023. Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material. Journal of Applied Polymer Science , vol.140, no.46 .

Karakas, C. Y., ÜSTÜNDAĞ, C. B., ŞAHİN, A., & KARADAĞ, A., (2023). Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material. Journal of Applied Polymer Science , vol.140, no.46.

Karakas, Canan Et Al. "Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material," Journal of Applied Polymer Science , vol.140, no.46, 2023

Karakas, Canan Y. Et Al. "Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material." Journal of Applied Polymer Science , vol.140, no.46, 2023

Karakas, C. Y. Et Al. (2023) . "Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material." Journal of Applied Polymer Science , vol.140, no.46.

@article{article, author={Canan Yağmur KARAKAŞ Et Al. }, title={Co-axial electrospinning of liposomal propolis loaded gelatin-zein fibers as a potential wound healing material}, journal={Journal of Applied Polymer Science}, year=2023}