YILMAZ, Ş. Et Al. 2020. ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH. II. International Agricultural, Biological & Life Science Conference , (Turkey).

YILMAZ, Ş., ECER, Ü., ZENGİN, A., & ŞAHAN, T., (2020). ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH . II. International Agricultural, Biological & Life Science Conference, Turkey

YILMAZ, Şakir Et Al. "ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH," II. International Agricultural, Biological & Life Science Conference, Turkey, 2020

YILMAZ, Şakir Et Al. "ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH." II. International Agricultural, Biological & Life Science Conference , Turkey, 2020

YILMAZ, Ş. Et Al. (2020) . "ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH." II. International Agricultural, Biological & Life Science Conference , Turkey.

@conferencepaper{conferencepaper, author={Şakir Yılmaz Et Al. }, title={ENHANCED REMOVAL OF ARSENATE FROM AQUEOUS ENVIRONMENTS BY A NOVEL CLAY-POLYMER BRUSH HYBRID MATERIAL: MODELING AND OPTIMIZATION STUDIES BY RESPONSE SURFACE METHODOLOGY APPROACH}, congress name={II. International Agricultural, Biological & Life Science Conference}, city={}, country={Turkey}, year={2020}}