Ayuningtiyas, Anggi (2020) Sintesis nanopartikel α-Fe2O3 dari limbah industri ubin keramik untuk penanganan metilen biru secara fotokatalisis. Diploma thesis, UIN Sunan Gunun Djati Bandung.
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Abstract
INDONESIA : Telah dilakukan penelitian untuk mensintesis nanopartikel α-Fe2O3 dari limbah industri ubin keramik sebagai fotokatalis. Limbah industri ubin keramik masih banyak mengandung oksida yang dapat dimanfaatkan kembali seperti Fe2O3, SiO2, TiO2 dan Al2O3. Namun, limbah ini belum termanfaatkan dengan baik. Selain Industri ubin keramik, industri lain seperti industri textile dan industri pulp menghasilkan limbah yang mengandung metilen biru. Fotokatalis menjadi alternatif untuk menangani limbah yang mengandung metilen biru. α-Fe2O3 merupakan semikonduktor yang memiliki energi gap yang lebar, dapat menyerap sinar UV dan juga sinar tampak. Sehingga α-Fe2O3 dapat digunakan sebagai fotokatalis untuk medegradasi metilen biru. Pada penelitian ini dilakukan Sintesis dari limbah industri ubin keramik dengan metode ko-presipitasi, dan dilakukan variasi suhu kalsinasi yaitu 800℃ (sampel A) dan 900℃ (sampel B). Dari hasil karakterisasi SEM suhu kalsinasi mempengaruhi morfologi dan ukuran partikel. Ukuran partikel sebesar 370,08514 ± 0,0864 dan 189,0895 ± 0,0659 nm pada sampel A dan B. Presentase α-Fe2O3 hasil sintesis dikarakterisasi dengan menggunakan instrumen XRF sampel A sebesar 76,8% dan sampel B sebesar 79,8%. Hasil karakterisasi XRD menunjukan sampel A memiliki ukuran kristalit 28,62 nm sedangkan sampel B memiliki ukuran kristalit 24,27 nm dan kristalinitas 31,28%. Hasil sintesis ini kemudian diaplikasikan untuk mendegradasi pewarna organik metilen biru. Hasil degradasi metilen biru terbaik yaitu 52,53% menggunakan sampel B sebanyak 0,11 gram, dengan waktu penyinaran selama 3 jam menggunkan sinar UV. ENGLISH : Research has been carried out to synthesis α-Fe2O3 nanoparticles from ceramic tile industrial waste as a photocatalyst. Ceramic tile industrial waste still contains many oxides that can be reused, such as Fe2O3, SiO2, TiO2 and Al2O3. However, this waste has not been utilized properly. Apart from the ceramic tile industry, other industries such as the textile industry and the pulp industry produce waste that contains organic methylene blue. Photocatalysts are an alternative for dealing with waste containing organic dyes such as methylene blue. α-Fe2O3 is a semiconductor that has a wide energy gap, which can absorb both UV and visible light. So that α-Fe2O3 can be used as a photocatalyst to degrade methylene blue. In this research, the synthesis of α-Fe2O3 from ceramic tile industrial waste was using the co-precipitation method, and the calcination temperature variations were performed, namely 800 ℃ (sample A) and 900 ℃ (sample B). From the results of SEM characterization the calcination temperature affected the morphology and particle size. The particle size was 370.08514 ± 0.0864 and 189.0895 ± 0.0659 nm in samples A and B. The percentage of synthesized α-Fe2O3 was characterized using the XRF instrument sample A of 76.8% and sample B of 79.8%.. The results of XRD characterization showed that sample A had a crystallite size of 28.62 nm, while sample B had a crystallite size of 24.27 nm and a crystallinity of 31.28%. The result of this synthesis is then applied to degrade the organic dye methylene blue. The best result of degradation of methylene blue was 52.53% using 0.11 gram of sample B, with irradiation time of 3 hours using UV light.
| Item Type: | Thesis (Diploma) |
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| Uncontrolled Keywords: | α-Fe2O3; fotokatalis; ko-presipitasi; kalsinasi; metilen biru |
| Subjects: | Analytical Chemistry Analytical Chemistry > Qualitative Analysis, Quantitavie Analysis of Chemistry Inorganic Chemistry Ecology > Environmental Chemistry Technology of Industrial Chemicals > Metallic Compound Technology of Industrial Chemicals > Synthetic Chemicals Metallurgy > Physical and Chemical Metallurgy |
| Divisions: | Fakultas Sains dan Teknologi > Program Studi Kimia |
| Depositing User: | Anggi Ayuningtiyas |
| Date Deposited: | 17 Feb 2021 01:46 |
| Last Modified: | 17 Feb 2021 01:46 |
| URI: | https://etheses.uinsgd.ac.id/id/eprint/37093 |
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