S. A. A. Noma Et Al. , "Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability," CATALYSIS LETTERS , vol.151, no.4, pp.1191-1201, 2021
Noma, S. A. A. Et Al. 2021. Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability. CATALYSIS LETTERS , vol.151, no.4 , 1191-1201.
Noma, S. A. A., Yilmaz, B. S., Ulu, A., ÖZDEMİR, N., & ATEŞ, B., (2021). Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability. CATALYSIS LETTERS , vol.151, no.4, 1191-1201.
Noma, Samir Et Al. "Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability," CATALYSIS LETTERS , vol.151, no.4, 1191-1201, 2021
Noma, Samir A. Et Al. "Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability." CATALYSIS LETTERS , vol.151, no.4, pp.1191-1201, 2021
Noma, S. A. A. Et Al. (2021) . "Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability." CATALYSIS LETTERS , vol.151, no.4, pp.1191-1201.
@article{article, author={Samir Abbas Ali Noma Et Al. }, title={Development of L-asparaginase@hybrid Nanoflowers (ASNase@HNFs) Reactor System with Enhanced Enzymatic Reusability and Stability}, journal={CATALYSIS LETTERS}, year=2021, pages={1191-1201} }