F. Cal Et Al. , "Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability," ACS APPLIED BIO MATERIALS , vol.4, no.9, pp.7266-7279, 2021
Cal, F. Et Al. 2021. Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability. ACS APPLIED BIO MATERIALS , vol.4, no.9 , 7266-7279.
Cal, F., Arslan, T. S., DERKUŞ, B., KIRAN, F., CENGİZ, U., & ARSLAN, Y. E., (2021). Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability. ACS APPLIED BIO MATERIALS , vol.4, no.9, 7266-7279.
Cal, Fatma Et Al. "Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability," ACS APPLIED BIO MATERIALS , vol.4, no.9, 7266-7279, 2021
Cal, Fatma Et Al. "Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability." ACS APPLIED BIO MATERIALS , vol.4, no.9, pp.7266-7279, 2021
Cal, F. Et Al. (2021) . "Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability." ACS APPLIED BIO MATERIALS , vol.4, no.9, pp.7266-7279.
@article{article, author={Fatma Cal Et Al. }, title={Synthesis of Silica-Based Boron-Incorporated Collagen/Human Hair Keratin Hybrid Cryogels with the Potential Bone Formation Capability}, journal={ACS APPLIED BIO MATERIALS}, year=2021, pages={7266-7279} }