C. Buyukpinar Et Al. , "Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry," ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5, 2019
Buyukpinar, C. Et Al. 2019. Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry. ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5 .
Buyukpinar, C., SAN, N., KOMESLİ, O. T., & BAKIRDERE, S., (2019). Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry. ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5.
Buyukpinar, Cagdas Et Al. "Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry," ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5, 2019
Buyukpinar, Cagdas Et Al. "Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry." ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5, 2019
Buyukpinar, C. Et Al. (2019) . "Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry." ENVIRONMENTAL MONITORING AND ASSESSMENT , vol.191, no.5.
@article{article, author={Cagdas Buyukpinar Et Al. }, title={Accurate, sensitive, and precise determination of cobalt in soil matrices by the combination of batch type gas-liquid separator-assisted photochemical vapor generation and atomic absorption spectrophotometry}, journal={ENVIRONMENTAL MONITORING AND ASSESSMENT}, year=2019}