Aljabour, A. Et Al. 2016. Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction. ACS Applied Materials and Interfaces , vol.8, no.46 , 31695-31701.

Aljabour, A., Apaydin, D. H., Coskun, H., Ozel, F., Ersoz, M., Stadler, P., ... Sariciftci, N. S.(2016). Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction. ACS Applied Materials and Interfaces , vol.8, no.46, 31695-31701.

Aljabour, Abdalaziz Et Al. "Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction," ACS Applied Materials and Interfaces , vol.8, no.46, 31695-31701, 2016

Aljabour, Abdalaziz Et Al. "Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction." ACS Applied Materials and Interfaces , vol.8, no.46, pp.31695-31701, 2016

Aljabour, A. Et Al. (2016) . "Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction." ACS Applied Materials and Interfaces , vol.8, no.46, pp.31695-31701.

@article{article, author={Abdalaziz Aljabour Et Al. }, title={Improvement of catalytic activity by nanofibrous CuInS2 for electrochemical CO2 reduction}, journal={ACS Applied Materials and Interfaces}, year=2016, pages={31695-31701} }