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The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium
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A. Caglar, "The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium," Materials Chemistry and Physics , vol.295, 2023

Caglar, A. 2023. The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium. Materials Chemistry and Physics , vol.295 .

Caglar, A., (2023). The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium. Materials Chemistry and Physics , vol.295.

Caglar, Aykut. "The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium," Materials Chemistry and Physics , vol.295, 2023

Caglar, Aykut. "The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium." Materials Chemistry and Physics , vol.295, 2023

Caglar, A. (2023) . "The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium." Materials Chemistry and Physics , vol.295.

@article{article, author={Aykut Caglar}, title={The enhanced PdAuPt-nitrogen-doped graphene/ITO anode electrodes for electrooxidation of glucose in alkaline medium}, journal={Materials Chemistry and Physics}, year=2023}