Ghufron, Reynard Hanif (2024) Analisis Pengaruh Komposisi Fe2O3 Terhadap Aktivitas Fotokatalitik rGO/Fe2O3 dalam Reduksi CO2. Other thesis, Institut Teknologi Sepuluh Nopember.
![[thumbnail of 5011201157-Undergraduate_Thesis.pdf]](http://repository.its.ac.id/style/images/fileicons/text.png) |
Text
5011201157-Undergraduate_Thesis.pdf - Accepted Version Restricted to Repository staff only until 1 April 2026. Download (2MB) | Request a copy |
Abstract
Emisi karbon saat ini menjadi penyebab utama pemanasan global, terutama berasal dari gas karbon dioksida (CO2) dalam sektor transportasi dan energi. Oleh karena itu, perlu dilakukan konversi emisi karbon menjadi energi alternatif yang bersih untuk mendukung keberlanjutan ekosistem bumi. Dalam penelitian ini, dilakukan konversi CO2 menjadi metanol melalui reaksi fotokatalitik yang melibatkan cahaya ultraviolet dan material fotokatalis rGO/Fe2O3. Tujuan penelitian ini adalah untuk menganalisis pengaruh komposisi Fe2O3 pada komposit rGO/Fe2O3 terhadap reaksi fotokatalitik guna mereduksi CO2 menjadi alkohol dan turunannya secara maksimal, serta untuk menganalisis dampak komposisi Fe2O3 terhadap struktur dan morfologi komposit rGO/Fe2O3. Untuk menganalisis material Fe2O3, rGO, dan komposit rGO/Fe2O3, dilakukan beberapa pengujian, termasuk XRD, FTIR, BET, SEM-EDX, UV-Vis, GC-MS, CV, dan EIS. Hasil penelitian menunjukkan bahwa CO2 dapat dikonversi menjadi alkanol paling efisien saat terjadi penyinaran dengan sinar tampak 25 W dengan komposisi rGO/Fe2O3 (1/4), selama 120 menit, dihasilkan 1-butanol sebanyak 68%. Berdasarkan Pengujian CV pada penelitian ini, potensial reduksi komposit bernilai -0.2 yang lebih besar dari potensial reduksi dari CO2/CH3OH adalah -0.38 sehingga komposit tidak mampu untuk mereduksi CO2/CH3OH. Sementara itu, penambahan Fe2O3 pada komposit rGO/Fe2O dapat meningkatkan kristalinitas, menambah gugus fungsi, dan menambah nilai band-gap energy komposit rGO/ Fe2O3. Komposit rGO/ Fe2O3 merupakan semikonduktor karena nilai konduktivitasnya adalah 0.016 Sm-1 pada frekuensi 0.01 Hz berdasarkan pengujian EIS padan penelitian ini.
=================================================================================================================================
Carbon emissions are currently the main cause of global warming, mainly derived from carbon dioxide gas (CO2) in the transportation and energy sectors. Therefore, it is necessary to convert carbon emissions into clean alternative energy to support the sustainability of the earth's ecosystem. In this study, the conversion of CO2 into methanol was carried out through a photocatalytic reaction involving ultraviolet light and rGO/Fe2O3 photocatalyst material. The purpose of this study is to analyze the effect of Fe2O3 composition on rGO/Fe2O3 composites on photocatalytic reactions in order to reduce CO2 to alcohols and derivatives maximally, and to analyze the impact of Fe2O3 composition on the structure and morphology of rGO/Fe2O3 composites. To analyze Fe2O3, rGO, and rGO/Fe2O3 composite materials, several tests were performed, including XRD, FTIR, BET, SEM-EDX, UV-Vis, GC-MS, CV, and EIS. The results showed that CO2 can be converted into alkanol most efficiently when irradiation occurs with 25 W visible light with an rGO/Fe2O3 composition of 1/4, for 120 minutes, 1-butanol is produced as much as 68%. Based on CV testing in this study, the composite reduction potential is -0.2 which is greater than the reduction potential of CO2/CH3OH is -0.38 so that the composite is unable to reduce CO2/CH3OH. Meanwhile, the addition of Fe2O3 to rGO/Fe2O3 composites can increase crystallinity, increase functional groups, and increase the band-gap energy value of rGO/Fe2O3 composites. The rGO/ Fe2O3 composite is a semiconductor because its conductivity value is 0.016 Sm -1 at a frequency of 0.01 Hz based on EIS testing in this study.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Photocatalyst, rGO/Fe2O3 composite, CO2, Alcohol, Fotokatalis, Komposit rGO/ Fe2O3, Alkohol |
| Subjects: | Q Science Q Science > QD Chemistry Q Science > QD Chemistry > QD716 Photocatalysis. |
| Divisions: | Faculty of Industrial Technology and Systems Engineering (INDSYS) > Material & Metallurgical Engineering > 28201-(S1) Undergraduate Thesis |
| Depositing User: | Reynard Hanif Ghufron |
| Date Deposited: | 06 Feb 2024 01:09 |
| Last Modified: | 06 Feb 2024 01:09 |
| URI: | http://repository.its.ac.id/id/eprint/106139 |
Actions (login required)
 |
View Item |