B. Ulaş Et Al. , "Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation," Process Safety and Environmental Protection , vol.185, pp.772-781, 2024
Ulaş, B. Et Al. 2024. Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation. Process Safety and Environmental Protection , vol.185 , 772-781.
Ulaş, B., Yilmaz, Y., Gök, Ö., & Demir Kıvrak, H., (2024). Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation. Process Safety and Environmental Protection , vol.185, 772-781.
Ulaş, Berdan Et Al. "Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation," Process Safety and Environmental Protection , vol.185, 772-781, 2024
Ulaş, Berdan Et Al. "Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation." Process Safety and Environmental Protection , vol.185, pp.772-781, 2024
Ulaş, B. Et Al. (2024) . "Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation." Process Safety and Environmental Protection , vol.185, pp.772-781.
@article{article, author={Berdan Ulaş Et Al. }, title={Highly active polyethylene glycol grafted cellulose supported Pd nanoparticles for glucose electrooxidation}, journal={Process Safety and Environmental Protection}, year=2024, pages={772-781} }