S. Karimi Et Al. , "Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation," Korean Journal of Chemical Engineering , vol.42, no.2, pp.361-381, 2025
Karimi, S. Et Al. 2025. Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation. Korean Journal of Chemical Engineering , vol.42, no.2 , 361-381.
Karimi, S., Mafton-Azad, L., Behnajady, B., & TÜZÜN, B., (2025). Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation. Korean Journal of Chemical Engineering , vol.42, no.2, 361-381.
Karimi, Saeid Et Al. "Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation," Korean Journal of Chemical Engineering , vol.42, no.2, 361-381, 2025
Karimi, Saeid Et Al. "Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation." Korean Journal of Chemical Engineering , vol.42, no.2, pp.361-381, 2025
Karimi, S. Et Al. (2025) . "Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation." Korean Journal of Chemical Engineering , vol.42, no.2, pp.361-381.
@article{article, author={Saeid Karimi Et Al. }, title={Response Surface Methodology (RSM) Design to Optimize the Cathode of Li-Ions Batteries Recycling in Deep Eutectic Solvent and DFT Simulation}, journal={Korean Journal of Chemical Engineering}, year=2025, pages={361-381} }