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Cited by 110 publications
(31 citation statements)
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“…The polymerization potential of EDOT is 1.49 V versus SCE which is lower than that of thiophene. By using dimer of EDOT as the monomer, the potential can be decreased further to 0.84 V versus SCE [42].…”
Section: Electrochemical Preparation Of Polythiophenementioning
confidence: 99%
“…The polymerization potential of EDOT is 1.49 V versus SCE which is lower than that of thiophene. By using dimer of EDOT as the monomer, the potential can be decreased further to 0.84 V versus SCE [42].…”
Section: Electrochemical Preparation Of Polythiophenementioning
confidence: 99%
“…[6][7][8] ) Owing to these properties, PEDOT has been utilized for a number of applications such as photovoltaic cells [9][10] , supercapacitors 11 , organic electronic ion pumps 12 , light-emitting diodes and electrochromic displays 13 , field effect transistor [14][15] and many others. Moreover, simple and wellestablished synthesis methods [16][17][18][19][20][21] make PEDOT attractive material not only for academic research but also for industrial applications.…”
Section: Introductionmentioning
confidence: 99%
“…36,37 The stability of PEDOT is attributed to the positive mesomeric effect of ethylenedioxy group that stabilizes the positive charges of oxidized PEDOT. 34,38 In addition, a number of well-established polymerization methods make PEDOT attractive such as Vapor Phase Polymerization (VPP), [39][40][41] Chemical Vapor Deposition (CVD), 42 Electrochemical Polymerization, 43,44 and Insitu Chemical Polymerization. 29,45,46 Owing to these superior properties and facile polymerization methods, PEDOT is used for a range of organic electric devices such as supercapacitors, [47][48][49][50] ion-pumps, 51,52 thermoelectric modulus, 43,[53][54][55] solar cells, 56,57 fuel cells, [58][59][60] electrochromic display, 61 light-emit diodes, 62 field effect transistors [63][64][65] and devices for bioelectronics.…”
Section: Pedotmentioning
confidence: 99%