MUTLU, S. Et Al. 2024. Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability. Advanced Materials Technologies .

MUTLU, S., Ortaç, B., Karatutlu, A., Gorkan, T., Durgun, E., Söyler, D., ... Söylemez, S.(2024). Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability. Advanced Materials Technologies .

MUTLU, SALİHA Et Al. "Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability," Advanced Materials Technologies , 2024

MUTLU, SALİHA Et Al. "Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability." Advanced Materials Technologies , 2024

MUTLU, S. Et Al. (2024) . "Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability." Advanced Materials Technologies .

@article{article, author={SALİHA MUTLU Et Al. }, title={Engineering of the High-Power Laser-Induced Synthesis of Ni-Based Metal-Organic Framework: Investigation of its Optical Properties, Computational Methodology, Electrocatalytic Performances, and Glucose-Sensing Ability}, journal={Advanced Materials Technologies}, year=2024}