H. D. Yilmaz Et Al. , "Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites," Biomaterials Science , vol.11, no.15, pp.5320-5336, 2023
Yilmaz, H. D. Et Al. 2023. Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites. Biomaterials Science , vol.11, no.15 , 5320-5336.
Yilmaz, H. D., Cengiz, U., Derkus, B., & Arslan, Y. E., (2023). Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites. Biomaterials Science , vol.11, no.15, 5320-5336.
Yilmaz, Hilal Et Al. "Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites," Biomaterials Science , vol.11, no.15, 5320-5336, 2023
Yilmaz, Hilal D. Et Al. "Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites." Biomaterials Science , vol.11, no.15, pp.5320-5336, 2023
Yilmaz, H. D. Et Al. (2023) . "Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites." Biomaterials Science , vol.11, no.15, pp.5320-5336.
@article{article, author={Hilal Deniz Yilmaz Et Al. }, title={Development of plant-based biopolymer coatings for 3D cell culture: boron-silica-enriched quince seed mucilage nanocomposites}, journal={Biomaterials Science}, year=2023, pages={5320-5336} }