ÖZCAN, S. Et Al. 2025. Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline. Current Analytical Chemistry .

ÖZCAN, S., Elriş, A., Altun, M. A., LEVENT, S., & CAN, N. Ö., (2025). Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline. Current Analytical Chemistry .

ÖZCAN, SANİYE Et Al. "Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline," Current Analytical Chemistry , 2025

ÖZCAN, SANİYE Et Al. "Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline." Current Analytical Chemistry , 2025

ÖZCAN, S. Et Al. (2025) . "Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline." Current Analytical Chemistry .

@article{article, author={SANİYE ÖZCAN Et Al. }, title={Box-bhenken Design Combined with 3D Surface Methodology for Optimization of an Eco-friendly HPLC Method to Determine Venetoclax in Human Plasma, and its Bioanalytical Method Validation According to ICH M10 Guideline}, journal={Current Analytical Chemistry}, year=2025}