Celik, G. Et Al. 2019. Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species. Industrial and Engineering Chemistry Research , vol.58, no.10 , 4054-4064.

Celik, G., Ailawar, S. A., Gunduz, S., Miller, J. T., Edmiston, P. L., & Ozkan, U. S., (2019). Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species. Industrial and Engineering Chemistry Research , vol.58, no.10, 4054-4064.

Celik, GÖKHAN Et Al. "Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species," Industrial and Engineering Chemistry Research , vol.58, no.10, 4054-4064, 2019

Celik, GÖKHAN Et Al. "Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species." Industrial and Engineering Chemistry Research , vol.58, no.10, pp.4054-4064, 2019

Celik, G. Et Al. (2019) . "Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species." Industrial and Engineering Chemistry Research , vol.58, no.10, pp.4054-4064.

@article{article, author={GÖKHAN ÇELİK Et Al. }, title={Aqueous-Phase Hydrodechlorination of Trichloroethylene over Pd-Based Swellable Organically Modified Silica: Catalyst Deactivation Due to Sulfur Species}, journal={Industrial and Engineering Chemistry Research}, year=2019, pages={4054-4064} }