(2026). A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance. Nanotechnology, Science and Applications.
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Chicago Style (17th ed.) Citation
"A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance."
Nanotechnology, Science and Applications 2026.
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MLA (9th ed.) Citation
"A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance."
Nanotechnology, Science and Applications, 2026.
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Warning: These citations may not always be 100% accurate.