Hutomo, Farhan Aryo (2025) Analisis Cu2O Quantum Dots Sebagai Photosensitizer Terapi Fotodinamik Terhadap Sel Kanter 4T1. Masters thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Cu2O merupakan material photosensitizer (PS) yang menjanjikan dalam aplikasi terapi fotodinamik karena sensitive terhadap cahaya tampak dan memiliki band gap sebesar 2.5 eV. Untuk mendapatkan nanopertikel Cu2O yang stabil dan memiliki distribusi partikel yang seragam, dibutuhkan metode sintesis yang tepat. Pada penelitian ini dilakukan sintesis Cu2O dengan metode hot soap dengan variasi temperature reaksi 150oC, 180oC, dan 200oC. Hasil analisis XRD menunjukkan bahwa ketiga sampel memiliki Tingkat kemurnian yang baik dan mengkonfirmasi hipotesis terkait terjadinya fenomena Oswald Ripening,. Pengujian TEM juga mengkonfirmasi fenomena Oswald Ripening yang ditandai dengan rata-rata ukuran partikel yang semekin besar dari 8 nm, 9 nm, dan 10 nm. Pengujian UV-vis juga menunjukkan bahwa Cu2O dalam studi ini sensitive terhadap cahaya tampak yang ditandai dengan absorption edge pada 501 nm, 510, dan 490 nm untuk sampel dengan temperature reaksi 150oC, 180oC, dan 200oC. Pengujian photoluminescence emission juga mengkonfirmasi bahwa Cu2O pada penelitian ini memiliki emisi pada daerah spektrum cyan dengan peak pada 485.5 nm, 480 nm, dan 475 nm. Pengujian ROS juga dilakukan dengan dua macam probe yaitu DPBF dan Na2S2O3 yang merupakan probe dari singlet oxygen dan hydrogen peroxide. Pengujian PDT Cu2O terhadap sel kanker 4T1 dilakukan dengan menggunakan metode MTT assay dengan variasi dosis 50 µL, 70 µL, 100 µL. Berdasarkan hasil pengujian MTT assay, dipatkan hasil terbaik setelah 15 menit pelakuan dengan penuruan jumlah sel kanker sebesar 99.25% oleh Cu2O-180oC dengan konsentrasi 100 µL. Pengujian terhadap sel sehat Hek293 juga dilakukan untuk mengkonfirmasi bahwa Cu2O memiliki toksisitas selektif dan didapatkan hasil Cu2O-180oC dengan konsentrasi 70 µL tidak menyebabkan penuruan pada jumlah sel sehat selama 15 menit perlakuan. ==========================================================================================================================================
Cu2O is a photosensitizer (PS) material that is promising in photodynamic therapy applications because it is sensitive to visible light and has a band gap of 2.5 eV. To obtain Cu2O nanoparticles that are stable and have a uniform particle distribution, an appropriate synthesis method is needed. In this research, Cu2O was synthesized using the hot soap method with varying reaction temperatures of 150oC, 180oC and 200oC. The results of the XRD analysis show that the three samples have a good level of purity and confirm the hypothesis regarding the occurrence of the Oswald Ripening phenomenon. TEM testing also confirmed the Oswald Ripening phenomenon which was characterized by an increasing average particle size of 8 nm, 9 nm, and 10 nm. UV-vis testing also shows that Cu2O in this study is sensitive to visible light as indicated by absorption edges at 501 nm, 510, and 490 nm for samples with reaction temperatures of 150oC, 180oC, and 200oC. Photoluminescence emission testing also confirmed that Cu2O in this study had emissions in the cyan spectrum region with peaks at 485.5 nm, 480 nm, and 475 nm. ROS testing is also carried out with two types of probes, namely DPBF and Na2S2O3 which are probes for singlet oxygen and hydrogen peroxide. PDT Cu2O testing on 4T1 cancer cells was carried out using the MTT assay method with varying doses of 50 µL, 70 µL, 100 µL. Based on the results of the MTT assay test, the best results were obtained after 15 minutes of treatment with a reduction in the number of cancer cells by 99.25% by Cu2O-180oC with a concentration of 100 µL. Tests on healthy Hek293 cells were also carried out to confirm that Cu2O has selective toxicity and the results obtained were that Cu2O-180oC with a concentration of 70 µL did not cause a decrease in the number of healthy cells during 15 minutes of treatment
| Item Type: | Thesis (Masters) |
|---|---|
| Uncontrolled Keywords: | Cu2O, PDT, Quantum dots, Photosenitizer, Anticancer |
| Subjects: | T Technology > T Technology (General) T Technology > TP Chemical technology |
| Divisions: | Faculty of Industrial Technology and Systems Engineering (INDSYS) > Material & Metallurgical Engineering > 27101-(S2) Master Thesis |
| Depositing User: | Farhan Aryo Hutomo |
| Date Deposited: | 05 Aug 2025 04:17 |
| Last Modified: | 11 Aug 2025 03:12 |
| URI: | http://repository.its.ac.id/id/eprint/126655 |
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