Iman, Ryan Nur (2018) Fabrikasi nanokeramik berbasis ZnFe2O4 ditambah 10% mol Mn2O3 berbahan dasar mineral lokal untuk aplikasi sensor gas alkohol. Diploma thesis, UIN Sunan Gunung Djati Bandung.
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Abstract
Fabrikasi Nanokeramik Berbasis ZnFe2O4 ditambah 10% mol Mn2O3 Berbahan Dasar Mineral Lokal Untuk Aplikasi Sensor Gas Alkohol telah berhasil dilakukan. Penelitian ini bertujuan untuk mengoptimalkan potensi mineral yang ada di Indonesia dan mengetahui pengaruh dari suhu pembakaran terhadap karakteristik nanokeramik. Material semikonduktor yang digunakan adalah besi oksida Fe2O3 (hasil pemurnian yarosit), Mn2O3 (hasil pemurnian Manganit) dan ZnO. Sintesis serbuk nanokeramik dilakukan dengan menggunakan metode presipitasi. Serbuk hasil sintesis dicampur dengan Organic Vehicle (OV) untuk dibuat menjadi pasta dengan perbandingan serbuk 70% : OV 30%. Fabrikasi nanokeramik dilakukan menggunakan metode screen printing dengan suhu pembakaran 600 dan 700 oC selama dua jam. Nanokeramik memiliki heterostruktur kubik dan hekasagonal dengan ukuran kristalit ~27 nm dan 125 nm berturut-turut untuk suhu pembakaran 600 dan 700 oC. Pori lebih banyak dihasilkan pada suhu pembakaran 700 oC meskipun dengan ukuran yang lebih kecil. Dimana permukaan keramiknya lebih rata serta memiliki ukuran butir yang seragam. Ini ditunjukkan dengan performa respon sensor yang tinggi terhadap gas alkohol pada suhu kerja 325 oC, dengan nilai konstanta alfa sebesar 1,16. Dimana nilai minimum kostanta alfa sensor komersial adalah satu yang menunjukkan bahwa sensor berpotensi untuk diproduksi secara komersial. Suhu pembakaran berpengaruh terhadap produksi pori dan respon sensor terhadap gas etanol. Dapat disimpulkan bahwa mineral lokal memiliki potensi tinggi dan mampu bersaing dengan material impor sebagai prekursor dalam fabrikasi sensor gas alkohol. Aplikasi lebih jauh dari sesnsor ini dapat diterapkan pada proses Halal Detection pada makanan dan minuman. Fabrication of ZnFe2O4 Based Nanoceramics plus Mn2O3 Based on Local Minerals for Alcohol Gas Sensor Applications have been successfully carried out. This study aims to optimize the mineral potential in Indonesia and determine the effect of combustion temperatures on the characteristics of nanocomposite ceramics. Semiconductor materials used are iron oxide Fe2O3 (purified by yarocytes), Mn2O3 (purified by Manganite) and ZnO. Nanocomposite powder synthesis was carried out using the precipitation method. The synthesized powder is mixed with Organic Vehicle (OV) to be made into a paste with a ratio of 70% powder: 30% OV. Fabrication of nanocomposite ceramics was carried out using a screen printing method with a burning temperature of 600 and 700 oC for two hours. Nanocomposite ceramics have cubic and hexagonal structures with a crystallite size of ~ 27 nm and 125 nm respectively for a burning temperature of 600 and 700 oC. More pores are produced at a combustion temperature of 700 °C even though with a smaller size. Where the ceramic surface is more even and has a uniform grain size. This is shown by the high sensor response performance to alcohol gas at a working temperature of 325 oC, with an alpha constant value of 1,16. Where the minimum value of a commercial sensor alpha cost is one that shows that the sensor has the potential to be produced commercially. The combustion temperature affects the pore production and the sensor response to ethanol gas. It can be concluded that local minerals have high potential and are able to compete with imported materials as a precursor in the fabrication of alcohol gas sensors. Further applications from these contributors can be applied to the Halal Detection process for food and beverages.
| Item Type: | Thesis (Diploma) |
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| Uncontrolled Keywords: | Semikonduktor; Sensor gas; Nanokeramik; Kubik-heksagonal; Presipitasi; Screen Printing. Semiconductor;Gas sensor;Nanocomposite, Cubic-hexagonal;Precipitation;Screen Printing. |
| Subjects: | Inorganic Chemistry > Metals, Their Compounds and Mixtures Crystallography, Crystals > Physical and Structural Crystallography Technology, Applied Sciences Technology of Industrial Chemicals > Metallic Compound |
| Divisions: | Fakultas Sains dan Teknologi > Program Studi Fisika |
| Depositing User: | Ryan Nur Iman |
| Date Deposited: | 05 Nov 2018 06:54 |
| Last Modified: | 05 Nov 2018 06:54 |
| URI: | https://etheses.uinsgd.ac.id/id/eprint/16355 |
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