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A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance
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| Published in: | Nanotechnology, Science and Applications |
|---|---|
| Format: | Online Article RSS Article |
| Published: |
2026
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| Subjects: | |
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| _version_ | 1864030192422354945 |
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| collection | WordPress RSS FRELIP Feed Integration |
| container_title | Nanotechnology, Science and Applications |
| description | |
| discipline_display | Technology & Engineering |
| discipline_facet | Technology & Engineering |
| format | Online Article RSS Article |
| genre | Journal Article |
| id | rss_article:31251 |
| institution | FRELIP |
| journal_source_facet | Nanotechnology, Science and Applications |
| publishDate | 2026 |
| publishDateSort | 2026 |
| record_format | rss_article |
| spellingShingle | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance Electronics Technology & Engineering — Aerospace & Applied Tech Technology & Engineering |
| sub_discipline_display | Technology & Engineering — Aerospace & Applied Tech |
| sub_discipline_facet | Technology & Engineering — Aerospace & Applied Tech |
| subject_display | Electronics Technology & Engineering — Aerospace & Applied Tech Technology & Engineering Electronics Technology & Engineering — Aerospace & Applied Tech Technology & Engineering |
| subject_facet | Electronics Technology & Engineering — Aerospace & Applied Tech Technology & Engineering |
| title | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_auth | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_full | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_fullStr | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_full_unstemmed | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_short | A Cost-Effective Approach to Triphenylamine-Assisted Fabrication of Stable Cu2O Nanoparticles: Structural Analysis and Multifunctional Antibacterial, Optical, and Electronic Performance |
| title_sort | a cost-effective approach to triphenylamine-assisted fabrication of stable cu2o nanoparticles: structural analysis and multifunctional antibacterial, optical, and electronic performance |
| topic | Electronics Technology & Engineering — Aerospace & Applied Tech Technology & Engineering |
| url | https://www.dovepress.com/a-cost-effective-approach-to-triphenylamine-assisted-fabrication-of-st-peer-reviewed-fulltext-article-NSA |