THE EFFECT OF CONCENTRATION NANOPARTICLES MnO2 DOPED IN ACTIVATED CARBON AS SUPERCAPACITOR ELECTRODES
| Main Authors: | Doloksaribu, Maryati Evivani, Harsojo, , Triyana, Kuwat, Prihandoko, Bambang |
|---|---|
| Format: | Article PeerReviewed Book |
| Bahasa: | ind |
| Terbitan: |
Research India Publications
, 2017
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| Subjects: | |
| Online Access: |
http://digilib.unimed.ac.id/51518/1/Fulltext.pdf http://digilib.unimed.ac.id/51518/ https://www.ripublication.com/ijaer17/ijaerv12n19_86.pdf |
| ctrlnum |
51518 |
|---|---|
| fullrecord |
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<dc schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd"><relation>http://digilib.unimed.ac.id/51518/</relation><title>THE EFFECT OF CONCENTRATION NANOPARTICLES MnO2 DOPED IN ACTIVATED CARBON AS SUPERCAPACITOR ELECTRODES</title><creator>Doloksaribu, Maryati Evivani</creator><creator>Harsojo, </creator><creator>Triyana, Kuwat</creator><creator>Prihandoko, Bambang</creator><subject>QC120 Descriptive and Experimental mechanics</subject><subject>QC170 Atomic physics. Constitution and properties of matter including molecular physics, relativity, quantum theory, and solid state physics</subject><subject>QC501 Electricity</subject><description>A symmetric supercapacitor has been fabricated using activated carbon adopted different concentration the nanoparticle manganese dioxide (MnO2)-activated carbon (AC) composite as the electrode materials. The composite electrodes were prepared by mechanically mixing the activated carbon, MnO2, and PVDF polymeric solution as a binder. The concentration of MnO2 was varied from 0% until
20%. The charge storage mechanism in MnO2 electrode, used in the aqueous electrolyte, was investigated by cyclic voltammetry and the impedance testing was done on two electrodes system. The result clearly showed that the low
concentration of nanostructured MnO2 has improved the specific capacitance of supercapacitor via pseudocapacitive
charge storage mechanism and the increased of surface area.
However, further increasing the MnO2 content in the electrode decreased the capacitive performance and deteriorated the specific surface area of the electrode, mainly due to the aggregation of the MnO2 particles within the composite. Structural analysis of the nanocomposite electrodes was characterized by scanning electron microscopy (SEM) and Brunauer-Emmett-Teller (BET) analysis. Additionally, the electrochemical properties are evaluated through cyclic voltammetry, electrochemical impedance spectra, and galvanostatic cycling measurements. The results demonstrate this MnO2/AC composite owes homogeneous particle size of nanometer dimension. The experimental results showed that the highest specific capacitance of 372 F/g at the scanning rate of 10 m/V is achieved with a fairly low MnO2 nanomaterials loading (5 wt. %) in 3 M KOH. The maximum cycle life of the supercapacitors 4500 cycles. Besides, the impedance tests results show that the charge transfer resistance of this composite is 0.88 Ω.</description><publisher>Research India Publications</publisher><date>2017</date><type>Journal:Article</type><type>PeerReview:PeerReviewed</type><type>Book:Book</type><language>ind</language><identifier>http://digilib.unimed.ac.id/51518/1/Fulltext.pdf</identifier><identifier> Doloksaribu, Maryati Evivani and Harsojo, and Triyana, Kuwat and Prihandoko, Bambang (2017) THE EFFECT OF CONCENTRATION NANOPARTICLES MnO2 DOPED IN ACTIVATED CARBON AS SUPERCAPACITOR ELECTRODES. International Journal of Applied Engineering Research (IJAER), 12 (19). pp. 8625-8631. ISSN 0973-4562 </identifier><relation>https://www.ripublication.com/ijaer17/ijaerv12n19_86.pdf</relation><recordID>51518</recordID></dc>
|
| language |
ind |
| format |
Journal:Article Journal PeerReview:PeerReviewed PeerReview Book:Book Book |
| author |
Doloksaribu, Maryati Evivani Harsojo, Triyana, Kuwat Prihandoko, Bambang |
| title |
THE EFFECT OF CONCENTRATION NANOPARTICLES MnO2 DOPED IN ACTIVATED CARBON AS SUPERCAPACITOR ELECTRODES |
| publisher |
Research India Publications |
| publishDate |
2017 |
| topic |
QC120 Descriptive and Experimental mechanics QC170 Atomic physics. Constitution and properties of matter including molecular physics relativity quantum theory and solid state physics QC501 Electricity |
| url |
http://digilib.unimed.ac.id/51518/1/Fulltext.pdf http://digilib.unimed.ac.id/51518/ https://www.ripublication.com/ijaer17/ijaerv12n19_86.pdf |
| contents |
A symmetric supercapacitor has been fabricated using activated carbon adopted different concentration the nanoparticle manganese dioxide (MnO2)-activated carbon (AC) composite as the electrode materials. The composite electrodes were prepared by mechanically mixing the activated carbon, MnO2, and PVDF polymeric solution as a binder. The concentration of MnO2 was varied from 0% until
20%. The charge storage mechanism in MnO2 electrode, used in the aqueous electrolyte, was investigated by cyclic voltammetry and the impedance testing was done on two electrodes system. The result clearly showed that the low
concentration of nanostructured MnO2 has improved the specific capacitance of supercapacitor via pseudocapacitive
charge storage mechanism and the increased of surface area.
However, further increasing the MnO2 content in the electrode decreased the capacitive performance and deteriorated the specific surface area of the electrode, mainly due to the aggregation of the MnO2 particles within the composite. Structural analysis of the nanocomposite electrodes was characterized by scanning electron microscopy (SEM) and Brunauer-Emmett-Teller (BET) analysis. Additionally, the electrochemical properties are evaluated through cyclic voltammetry, electrochemical impedance spectra, and galvanostatic cycling measurements. The results demonstrate this MnO2/AC composite owes homogeneous particle size of nanometer dimension. The experimental results showed that the highest specific capacitance of 372 F/g at the scanning rate of 10 m/V is achieved with a fairly low MnO2 nanomaterials loading (5 wt. %) in 3 M KOH. The maximum cycle life of the supercapacitors 4500 cycles. Besides, the impedance tests results show that the charge transfer resistance of this composite is 0.88 Ω. |
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Universitas Negeri Medan |
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Perpustakaan Universitas Negeri Medan |
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Repository Universitas Negeri Medan |
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Karya Ilmiah Skripsi Thesis Disertasi |
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KOTA MEDAN |
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SUMATERA UTARA |
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IOS18689 |
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2023-05-27T22:40:03Z |
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2023-05-27T22:40:03Z |
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