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All Journal Jurnal Elektronika dan Telekomunikasi ENSAINS JOURNAL Metalurgi
Syoni Soepriyanto
2Department of Metallurgical Engineering, Faculty of Mining and Petroleum Engineering, Institut Teknologi Bandung, Jl. Ganesha 10 Bandung 40132
Arts Humanities Computer Science & IT Electrical & Electronics Engineering Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Social Sciences

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PENGARUH KONSENTRASI TEMBAGA DAN RAPAT ARUS TERHADAP MORFOLOGI ENDAPAN ELEKTRODEPOSISI TEMBAGA Soepriyanto, Syoni; Mubarok, M. Zaki; Sutarno, Sutarno; Wahyudi, Soleh
ENSAINS JOURNAL Vol 2, No 3 (2019): ENSAINS Journal September 2019
Publisher : UNIVERSITAS KEBANGSAAN

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (0.272 KB) | DOI: 10.31848/ensains.v2i3.295

Abstract

Abstract:. Copper deposits have been obtained by the electrolysis method using copper sulfate and sulfuric acid. The effect of copper concentration and current density on the surface morphology of copper deposits and current efficiency have been studied. The variation of copper concentration is 0.04 M and 0.8 M and the variation of current density is 2-8 A/dm2. The copper deposits will be photographed macro, weighed and characterized by Scanning Electron Microscope (SEM) to determine the surface morphology of deposits and Energy-Dispersive X-ray spectroscopy (EDX) to determine the chemical composition of deposits. The surface morphology of copper deposits in the form of compact and without nodules was reached at copper concentration is 0.8 M and the current density is 2 A/dm2 with the average of current efficiency is 96%.Keyword: Electrodeposition, copper, morphology, compact, current efficiency Abstrak: Endapan tembaga telah dihasilkan dengan metode elektrolisis menggunakan bahan tembaga sulfat dan asam sulfat. Penelitian ini mempelajari pengaruh konsentrasi tembaga dan rapat arus terhadap morfologi permukaan endapan tembaga dan efisiensi arus. Variasi konsentrasi tembaga adalah 0,04 M dan 0,8 M sedangkan variasi rapat arus adalah 2-8 A/dm2. Endapan tembaga yang dihasilkan akan difoto makro, ditimbang berat lapisannya dan diuji karakteristiknya dengan Scanning Electron Microscope (SEM) untuk mengetahui detail morfologi permukaan endapan dan Energy-Dispersive X-ray spectroscopy (EDX) untuk mengetahui komposisi kimia endapan. Morfologi permukaan endapan tembaga berbentuk compact dan tanpa nodul tercapai pada kondisi konsentrasi Cu 0,8 M dan rapat arus 2 A/dm2 dengan efisiensi arus mencapai rata-rata 96%.Kata Kunci: Elektrodeposisi, tembaga, morfologi, compact, efisiensi arus
Colloidal TiO2-Modified Mesoporous Electron Transport Layer in Perovskite Solar Cells Yustiani, Evira Bella; Anggraini, Putri Nur; Shobih, Shobih; Widianto, Eri; Retnaningsih, Lilis; Soepriyanto, Syoni; Santoso, Imam; Nursam, Natalita Maulani
Jurnal Elektronika dan Telekomunikasi Vol 23, No 2 (2023)
Publisher : National Research and Innovation Agency

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55981/jet.599

Abstract

The electron transport layer (ETL) is a crucial part in perovskite solar cells (PSC) as it specifically governs the charge extraction at the perovskite/ETL interface. In this study, methylammonium lead iodide-based PSCs with an n-i-p structure were fabricated and modified by adding colloidal TiO2 into the mesoporous TiO2 film as ETL. The effect of the colloidal TiO2 addition on the PSC performance was investigated for ETL comprising different types of TiO2 particles, i.e. P25 and anatase TiO2. Despite producing lower performance than the PSC made with commercial paste, the power conversion efficiency of the PSCs could be improved with the introduction of colloidal TiO2 solution. An optimum condition was observed depending on the type of TiO2 particle, where the best performing device was achieved with colloidal TiO2 of 0.4 and 0.2 mL for P25 and anatase TiO2, respectively. The amount of colloidal TiO2 in samples with P25 overall had less impact than the samples with anatase TiO2.
The Addition of C, Zn-C, and Sn-C on Anatase Titanium Dioxide (TiO2) for Dye-Sensitized Solar Cells Application Novianti, Ressa Muhripah; Nursam, Natalita Maulani; Shobih, Shobih; Hidayat, Jojo; Soepriyanto, Syoni
Metalurgi Vol 38, No 1 (2023): Metalurgi Vol. 38 No. 1 2023
Publisher : National Research and Innovation Agency (BRIN)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1373.041 KB) | DOI: 10.55981/metalurgi.2023.686

Abstract

DSSC (dye-sensitized solar cell) is a third-generation photovoltaic technology that can convert solar energy into electric current using a photoelectrochemical mechanism. Photoelectrode is one of the significant elements in DSSC, where photoexcited electrons are generated, and serves as an electron transport medium. Anatase titanium dioxide (TiO2) is often used as photoelectrode material because of its excellent photoactivity, high stability, non-toxicity, environmental friendliness, and low price. Many DSSC modifications have been conducted to overcome the efficiency limitations in DSSC, and one of them is carried out by modifying the TiO2 via doping. In this study, TiO2 doped with C and co-doping with Zn (Zn-C) and Sn (Sn-C) were prepared using sol-gel reactions, and they were subsequently applied and tested as photoelectrode in DSSC. The results showed that undoped and doped TiO2 had a porous spherical morphology with inhomogeneous particle sizes. The addition of C, Zn-C and Sn-C dopants has reduced in the crystallite size and the band gap energy of TiO2. The efficiency of DSSC with undoped TiO2 DSSC was 3.83%, while the best performance was obtained from DSSC C-TiO2 with an efficiency of 4.20%. In contrast, the DSSC with Zn-C-TiO2 and Sn-C-TiO2 co-doping produced unexpectedly lower efficiency of 0.71% and 0.85%, respectively.
Pengaruh Penambahan Nd2O3 dan Fe2O3 Pada Sistem Elektrolit Padat Gadolinia Doped Ceria (GDC) Untuk Aplikasi Sel Bahan Bakar Oksida Padat Suhu Menengah [Effect of Nd2O3 and Fe2O3 Addition on Gadolinia Doped Ceria (GDC) Solid Electrolyte System For IT-SOFC] Akbar, Muhammad Faisal; Dilasari, Bonita; Soepriyanto, Syoni; Suhendar, Dadan
Metalurgi Vol 37, No 2 (2022): Metalurgi Vol. 37 No. 2 Agustus 2022
Publisher : National Research and Innovation Agency (BRIN)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (701.104 KB) | DOI: 10.14203/metalurgi.v37i2.641

Abstract

Gadolinia Doped Ceria (GDC) is a solid electrolyte contender for intermediate-temperature SOFCs. However, more development of this solid electrolyte is required to improve its ionic conductivity. As a result, we will investigate the effect of Nd2O3 and Fe2O3 addition on GDC solid electrolytes to boost ionic conductivity. Solid electrolytes of the composition Ce0.9Gd0.2MxO1.9 (M = Nd, Fe) (x = 0%, 2,5% , 5%, and 7.5%) were synthesized using mixed oxide method and formed into pellets with a diameter of 1 cm. The pellets were sintered at 1200oC and 1400oC for 4 hours in an argon environment then the EIS test was performed at 450-650oC. The results showed that the Nd2O3 and Fe2O3 added were totally dissolved in the ceria structure and produced single-phase cubic fluorite CeO2. GDC solid electrolyte with Fe2O3 addition produces higher densification than Nd2O3 addition, where the value reaches 75% in the sample sintered at 1400oC. However, the addition of Nd2O3 further increased the value of ionic conductivity and decreased the activation energy of the GDC solid electrolyte compared to the addition of Fe2O3. The highest ionic conductivity and the lowest activation energy were obtained in the sample with 2.5% Nd2O3 in 650oC operating temperature, with the values achieved were 1.2 mS/cm and 0.41 eV, respectively. Therefore, it can be concluded that Nd2O3 addition is more effective to improve the performance of solid electrolyte GDC.AbstrakGadolinia Doped Ceria (GDC) merupakan kandidat elektrolit padat yang dapat dipakai pada sel bahan bakar oksida padat suhu menengah. Namun masih diperlukan pengembangan dari elektrolit padat ini untuk meningkatkan konduktivitas ioniknya. Oleh karena itu, pada penelitian ini dipelajari pengaruh penambahan Nd2O3 dan Fe2O3 untuk peningkatan konduktivitas ionik elektrolit padat GDC. Elektrolit padat disintesis menggunakan metode pencampuran oksida dengan komposisi Ce0,9Gd0,2MxO1,9 (M = Nd, Fe) (x = 0,2,5%, 5% dan 7,5%) dan dibuat dalam bentuk pelet dengan diameter 1 cm. Pelet yang dihasilkan dilakukan sintering pada 1200oC dan 1400oC selama 4 jam dalam atmosfer argon kemudian dilakukan pengujian EIS pada temperatur 450-650oC.  Hasil penelitian menunjukkan bahwa Nd2O3 dan Fe2O3 yang ditambahkan akan larut sempurna dalam struktur ceria dan fasa yang dihasilkan adalah cubic flourite fasa tunggal CeO2. Elektrolit padat GDC dengan penambahan Fe2O3 akan menghasilkan densifikasi lebih tinggi dibanding dengan penambahan Nd2O3 dimana nilainya mencapai 75% pada sampel yang disinter pada 1400oC. Akan tetapi, penambahan Nd2O3 lebih meningkatkan nilai konduktivitas ionik dan menurunkan energi aktivasi dari elektrolit padat GDC dibanding dengan penambahan Fe2O3. Konduktivitas ionik tertinggi dan energi aktivasi terendah didapat pada sampel dengan penambahan Nd2O3 2,5% dengan nilai yang dicapai berturut-turut 1,2 mS/cm dan 0,41 eV. Oleh karena itu, dapat disimpulkan bahwa Nd2O3 merupakan bahan yang lebih efektif untuk meningkatkan performa dari elektrolit padat GDC.
Co-Authors Anggraini, Putri Nur Dilasari, Bonita Faisal Akbar, Muhammad Imam Santoso Jojo Hidayat Mubarok, M. Zaki Novianti, Ressa Muhripah Nursam, Natalita Maulani Retnaningsih, Lilis Shobih Shobih Suhendar, Dadan Sutarno Sutarno Wahyudi, Soleh Widianto, Eri Yustiani, Evira Bella