O. F. Ozturk Et Al. , "Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation," POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5, pp.1426-1434, 2018
Ozturk, O. F. Et Al. 2018. Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation. POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5 , 1426-1434.
Ozturk, O. F., Demirci, S., Sengel, S. B., & ŞAHİNER, N., (2018). Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation. POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5, 1426-1434.
Ozturk, Omer Et Al. "Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation," POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5, 1426-1434, 2018
Ozturk, Omer F. Et Al. "Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation." POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5, pp.1426-1434, 2018
Ozturk, O. F. Et Al. (2018) . "Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation." POLYMERS FOR ADVANCED TECHNOLOGIES , vol.29, no.5, pp.1426-1434.
@article{article, author={Omer F. Ozturk Et Al. }, title={Highly regenerable ionic liquid microgels as inherently metal-free green catalyst for H-2 generation}, journal={POLYMERS FOR ADVANCED TECHNOLOGIES}, year=2018, pages={1426-1434} }