Enhanced electrochemical performances of PANI using redox additive of K{sub 4}[Fe(CN){sub 6}] in aqueous electrolyte for symmetric supercapacitors

Highlights: • Effect of K{sub 4}[Fe(CN){sub 6}] in H{sub 2}SO{sub 4} studied on the electrochemical properties of PANI. • The polaron band – π* transition reveals the emeraldine salt (conductive) form. • CV curves exhibit quasi-reversible redox behavior. • Symmetric PANI SC shows 228 F g{sup −1} at...

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Veröffentlicht in:	Materials research bulletin 2015-02, Vol.62
Hauptverfasser:	Shanmugavani, A., Kaviselvi, S., Sankar, K.Vijaya, Selvan, R.Kalai
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Sprache:	eng
Schlagworte:	CAPACITANCE CYANIDES ELECTROCHEMISTRY ELECTROLYTES FOURIER TRANSFORMATION IRON CHLORIDES IRON COMPOUNDS MATERIALS SCIENCE OXIDATION PARTICLE SIZE POLYMERIZATION POTASSIUM COMPOUNDS REDOX PROCESS SCANNING ELECTRON MICROSCOPY SULFURIC ACID VISIBLE SPECTRA VOLTAMETRY WEAR RESISTANCE X-RAY DIFFRACTION
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description	Highlights: • Effect of K{sub 4}[Fe(CN){sub 6}] in H{sub 2}SO{sub 4} studied on the electrochemical properties of PANI. • The polaron band – π* transition reveals the emeraldine salt (conductive) form. • CV curves exhibit quasi-reversible redox behavior. • Symmetric PANI SC shows 228 F g{sup −1} at 1 mA cm{sup −2} in K{sub 4}[Fe (CN){sub 6}] added 1 M H{sub 2}SO{sub 4}. • PANI-1 symmetric supercapacitor shows almost 100% of capacity retention. - Abstract: Polyaniline (PANI) particles were prepared by reflux assisted chemical oxidative polymerization method with the aid of ammonium per sulfate/ferric chloride as oxidants and HCl/H{sub 2}SO{sub 4} as the medium. Amorphous nature and the emeraldine state of PANI were revealed from X-ray diffraction and Fourier transform infrared analysis. Moreover, ultra violet–visible spectra attributes to the polaron band – π* transition of polyaniline. The scanning electron microscopic image shows that the particle size is in the range of 0.2–2 μm. The electrochemical performances of the material were investigated in 1 M H{sub 2}SO{sub 4} and 0.08 M K{sub 4}[Fe(CN){sub 6}] added 1 M H{sub 2}SO{sub 4} aqueous electrolytes. Cyclic voltammetry and galvanostatic charge–discharge studies were carried out to find its suitability as a supercapacitor electrode material. The charge discharge analysis of the fabricated symmetric supercapacitors revealed the fact that the electrolyte containing redox additive (0.08 M K{sub 4}[Fe(CN){sub 6}]) delivered an enhanced specific capacitance of 228 F g{sup −1} (∼912 F g{sup −1} for single electrode) than that of 1 M H{sub 2}SO{sub 4} (100 F g{sup −1}) at 1 mA cm{sup −2}. Further cycling stability is performed at 5 mA cm{sup −2} ensures the durability of the supercapacitor.
doi_str_mv	10.1016/J.MATERRESBULL.2014.10.075
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Amorphous nature and the emeraldine state of PANI were revealed from X-ray diffraction and Fourier transform infrared analysis. Moreover, ultra violet–visible spectra attributes to the polaron band – π* transition of polyaniline. The scanning electron microscopic image shows that the particle size is in the range of 0.2–2 μm. The electrochemical performances of the material were investigated in 1 M H{sub 2}SO{sub 4} and 0.08 M K{sub 4}[Fe(CN){sub 6}] added 1 M H{sub 2}SO{sub 4} aqueous electrolytes. Cyclic voltammetry and galvanostatic charge–discharge studies were carried out to find its suitability as a supercapacitor electrode material. The charge discharge analysis of the fabricated symmetric supercapacitors revealed the fact that the electrolyte containing redox additive (0.08 M K{sub 4}[Fe(CN){sub 6}]) delivered an enhanced specific capacitance of 228 F g{sup −1} (∼912 F g{sup −1} for single electrode) than that of 1 M H{sub 2}SO{sub 4} (100 F g{sup −1}) at 1 mA cm{sup −2}. 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Amorphous nature and the emeraldine state of PANI were revealed from X-ray diffraction and Fourier transform infrared analysis. Moreover, ultra violet–visible spectra attributes to the polaron band – π* transition of polyaniline. The scanning electron microscopic image shows that the particle size is in the range of 0.2–2 μm. The electrochemical performances of the material were investigated in 1 M H{sub 2}SO{sub 4} and 0.08 M K{sub 4}[Fe(CN){sub 6}] added 1 M H{sub 2}SO{sub 4} aqueous electrolytes. Cyclic voltammetry and galvanostatic charge–discharge studies were carried out to find its suitability as a supercapacitor electrode material. The charge discharge analysis of the fabricated symmetric supercapacitors revealed the fact that the electrolyte containing redox additive (0.08 M K{sub 4}[Fe(CN){sub 6}]) delivered an enhanced specific capacitance of 228 F g{sup −1} (∼912 F g{sup −1} for single electrode) than that of 1 M H{sub 2}SO{sub 4} (100 F g{sup −1}) at 1 mA cm{sup −2}. Further cycling stability is performed at 5 mA cm{sup −2} ensures the durability of the supercapacitor.</description><subject>CAPACITANCE</subject><subject>CYANIDES</subject><subject>ELECTROCHEMISTRY</subject><subject>ELECTROLYTES</subject><subject>FOURIER TRANSFORMATION</subject><subject>IRON CHLORIDES</subject><subject>IRON COMPOUNDS</subject><subject>MATERIALS SCIENCE</subject><subject>OXIDATION</subject><subject>PARTICLE SIZE</subject><subject>POLYMERIZATION</subject><subject>POTASSIUM COMPOUNDS</subject><subject>REDOX PROCESS</subject><subject>SCANNING ELECTRON MICROSCOPY</subject><subject>SULFURIC ACID</subject><subject>VISIBLE SPECTRA</subject><subject>VOLTAMETRY</subject><subject>WEAR RESISTANCE</subject><subject>X-RAY DIFFRACTION</subject><issn>0025-5408</issn><issn>1873-4227</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqNjV1LwzAYhYMoOD_-w4ve6EVrkqVrb-fomDqHzHklMmL61kbaZCapOGR_wl9sJ3rv1eHwHJ5DyAmjMaNscHEd3w4X-Xye318-TKcxp0x0IKZpskN6LEv7keA83SU9SnkSJYJm--TA-1dKqcjStEe-clNJo7AArFEFZ1WFjVayhhW60rpmCz3YEu6GsytovTYv4LCwHyCLQgf9jlt48-nbZxCbxzGejWbnP22weQJtQL61aFv_56_XAaETg183DQanFfi2-1JyJZUO1vkjslfK2uPxbx6S03G-GE0i64Ne-m6EqlLWmM635FxwmjHW_9_qGyfuYTw</recordid><startdate>20150215</startdate><enddate>20150215</enddate><creator>Shanmugavani, A.</creator><creator>Kaviselvi, S.</creator><creator>Sankar, K.Vijaya</creator><creator>Selvan, R.Kalai</creator><scope>OTOTI</scope></search><sort><creationdate>20150215</creationdate><title>Enhanced electrochemical performances of PANI using redox additive of K{sub 4}[Fe(CN){sub 6}] in aqueous electrolyte for symmetric supercapacitors</title><author>Shanmugavani, A. ; Kaviselvi, S. ; Sankar, K.Vijaya ; Selvan, R.Kalai</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-osti_scitechconnect_224208113</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><topic>CAPACITANCE</topic><topic>CYANIDES</topic><topic>ELECTROCHEMISTRY</topic><topic>ELECTROLYTES</topic><topic>FOURIER TRANSFORMATION</topic><topic>IRON CHLORIDES</topic><topic>IRON COMPOUNDS</topic><topic>MATERIALS SCIENCE</topic><topic>OXIDATION</topic><topic>PARTICLE SIZE</topic><topic>POLYMERIZATION</topic><topic>POTASSIUM COMPOUNDS</topic><topic>REDOX PROCESS</topic><topic>SCANNING ELECTRON MICROSCOPY</topic><topic>SULFURIC ACID</topic><topic>VISIBLE SPECTRA</topic><topic>VOLTAMETRY</topic><topic>WEAR RESISTANCE</topic><topic>X-RAY DIFFRACTION</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Shanmugavani, A.</creatorcontrib><creatorcontrib>Kaviselvi, S.</creatorcontrib><creatorcontrib>Sankar, K.Vijaya</creatorcontrib><creatorcontrib>Selvan, R.Kalai</creatorcontrib><collection>OSTI.GOV</collection><jtitle>Materials research bulletin</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Shanmugavani, A.</au><au>Kaviselvi, S.</au><au>Sankar, K.Vijaya</au><au>Selvan, R.Kalai</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Enhanced electrochemical performances of PANI using redox additive of K{sub 4}[Fe(CN){sub 6}] in aqueous electrolyte for symmetric supercapacitors</atitle><jtitle>Materials research bulletin</jtitle><date>2015-02-15</date><risdate>2015</risdate><volume>62</volume><issn>0025-5408</issn><eissn>1873-4227</eissn><abstract>Highlights: • Effect of K{sub 4}[Fe(CN){sub 6}] in H{sub 2}SO{sub 4} studied on the electrochemical properties of PANI. • The polaron band – π* transition reveals the emeraldine salt (conductive) form. • CV curves exhibit quasi-reversible redox behavior. • Symmetric PANI SC shows 228 F g{sup −1} at 1 mA cm{sup −2} in K{sub 4}[Fe (CN){sub 6}] added 1 M H{sub 2}SO{sub 4}. • PANI-1 symmetric supercapacitor shows almost 100% of capacity retention. - Abstract: Polyaniline (PANI) particles were prepared by reflux assisted chemical oxidative polymerization method with the aid of ammonium per sulfate/ferric chloride as oxidants and HCl/H{sub 2}SO{sub 4} as the medium. Amorphous nature and the emeraldine state of PANI were revealed from X-ray diffraction and Fourier transform infrared analysis. Moreover, ultra violet–visible spectra attributes to the polaron band – π* transition of polyaniline. The scanning electron microscopic image shows that the particle size is in the range of 0.2–2 μm. The electrochemical performances of the material were investigated in 1 M H{sub 2}SO{sub 4} and 0.08 M K{sub 4}[Fe(CN){sub 6}] added 1 M H{sub 2}SO{sub 4} aqueous electrolytes. Cyclic voltammetry and galvanostatic charge–discharge studies were carried out to find its suitability as a supercapacitor electrode material. The charge discharge analysis of the fabricated symmetric supercapacitors revealed the fact that the electrolyte containing redox additive (0.08 M K{sub 4}[Fe(CN){sub 6}]) delivered an enhanced specific capacitance of 228 F g{sup −1} (∼912 F g{sup −1} for single electrode) than that of 1 M H{sub 2}SO{sub 4} (100 F g{sup −1}) at 1 mA cm{sup −2}. Further cycling stability is performed at 5 mA cm{sup −2} ensures the durability of the supercapacitor.</abstract><cop>United States</cop><doi>10.1016/J.MATERRESBULL.2014.10.075</doi></addata></record>
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title	Enhanced electrochemical performances of PANI using redox additive of K{sub 4}[Fe(CN){sub 6}] in aqueous electrolyte for symmetric supercapacitors
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