B. Kalkan Et Al. , "Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units," Macromolecular Reaction Engineering , vol.17, no.3, 2023
Kalkan, B. Et Al. 2023. Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units. Macromolecular Reaction Engineering , vol.17, no.3 .
Kalkan, B., Mocan, M., & Orakdöğen, N., (2023). Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units. Macromolecular Reaction Engineering , vol.17, no.3.
Kalkan, Birgül, Merve Mocan, And Nermin Orakdöğen. "Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units," Macromolecular Reaction Engineering , vol.17, no.3, 2023
Kalkan, Birgül Et Al. "Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units." Macromolecular Reaction Engineering , vol.17, no.3, 2023
Kalkan, B. Mocan, M. And Orakdöğen, N. (2023) . "Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units." Macromolecular Reaction Engineering , vol.17, no.3.
@article{article, author={Birgül Kalkan Et Al. }, title={Temperature-Optimized Synthesis of SiO2-Reinforced N-(Alkyl)Acrylamide-Based Semi-IPN Hybrid Gels Functionalized with Methacrylic Acid Units}, journal={Macromolecular Reaction Engineering}, year=2023}