Browsing by Author "Taer, E."
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Item Impedansi Spektroskopy Sel Superkapasitor menggunakan Elektroda Karbon Bentuk Monolit dari Ampas Tebu(2013-07-30) Manik, S. T.; Taer, E.; IwantonoBinderlees activated carbon monoliths (ACMs) applied for supercapacitor electrodes are prepared from sugarcane bagasse by two different activation methods i.e, physical and physical-chemical activation process. CO2 gas is used as physical activation agent and the solution of 0.3, 0.4 KOH is chosen as chemical activation agent. The ACMs are tested by fabrication of the supercapacitor cell. The supercapacitor cell is made from stainless steel applied as current collectors and 1 M H2SO4 electrolyte. The electrode level resistance and capacitance are analyzed by Electrochemical Impedance Spectroscopy (EIS) method. The resistance level for supercapacitor cell with electrodes obtained by using physical activation method and combination of physical-chemical method are 1.18 Ω, 0.6 Ω, and 1.23 Ω, while its specific capacitances are 146.89 F/g, 152.29 F/g, and 147.94 F/g, respectively. It showed that the combination of physical- chemical activation process has improved the performance of the bagasse based ACMs electrodes for supercapacitor application.Item RANCANGAN ALAT SIKLIK VOLTAMMOGRAM UNTUK APLIKASI PADA PENGUKURAN SEL SUPERKAPASITOR(2014-03-25) Yani, A. A.; Taer, E.; Saputra, R. N.An instrument has been made to measure the voltage and current of supercapacitor cell using a cyclic voltammetry technique. This instrument consists of a potentiostat and a signal conditioner. Data processing and analyzing were performed using data acquisition system of a 12-bit serial ADC type ADS 7476. The ADC circuit a does not have a register that why it is controlled directly by a microcontroller ATmega8. This circuit was used as analog data converter of supercapacitor cells into digital data. The output voltage of the amplifier of supercapacitor cell was acquired by the ADC before it was interfaced to microcontroller. Data obtained from the ADC was sent by the microcontroller to a computer with an RS232 serial cable and read using Visual Studio C++. The program software Visual Studio C++ controled the retrieval of data by selecting a microcontroller and gain amplifier programmable which was appropriate that the received signal data acquisition system becomes more optimal. The read data was stored in the database and then visualized in the form of graphs and tables of voltammogram measurement data. The tests conducted in this study was a testing of microcontroller, a signal conditioning and instrumentation overall. Prototypes of this instrument were tested on a modified carbon electrode with a mixture substance of CNTs10%, PANI 15%, PVDF 5%, and 70% of activated carbon from cassava. The supercapacitor cell was assembled in the form of coins, which comminuted of ribbon Stailess steel (316L) as a current collector, a 1M H2SO4 electrolyte and a carbon composite as a working electrode. The measurement of current obtained a current in the range of -1mA to 0.993 mA at a voltage between 0 Volt to 0.5 Volt from a voltammogram curve. The result obtained was then composed with the instrument tool of the commercial potentiostat. Error percentage of all measurements was ± 6.05%