{"title":"电化学电池用有机2-(氰基3-(4-二苯基氨基)苯基)丙二烯酸染料的合成与表征","authors":"Kotteswaran Shanmugam, M. S. Pandian, P. Ramasamy","doi":"10.1063/1.5113403","DOIUrl":null,"url":null,"abstract":"Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. The solar cell efficiency of the synthesized dye is 1.7 % with Voc=0.67 V, Jsc=4.6 mA/m2 and fill factor (FF) =56 %.Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. The solar cell efficiency of the synthesized dye ...","PeriodicalId":10874,"journal":{"name":"DAE SOLID STATE PHYSICS SYMPOSIUM 2018","volume":"12 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-07-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Synthesis and characterization of organic 2-(cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid dye for electrochemical cell applications\",\"authors\":\"Kotteswaran Shanmugam, M. S. Pandian, P. Ramasamy\",\"doi\":\"10.1063/1.5113403\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. The solar cell efficiency of the synthesized dye is 1.7 % with Voc=0.67 V, Jsc=4.6 mA/m2 and fill factor (FF) =56 %.Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. 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Synthesis and characterization of organic 2-(cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid dye for electrochemical cell applications
Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. The solar cell efficiency of the synthesized dye is 1.7 % with Voc=0.67 V, Jsc=4.6 mA/m2 and fill factor (FF) =56 %.Phenyl-conjugated Oligoene dye 2-(Cyano 3-(4-diphenylamino) phenyl) prop 2-enoic acid was synthesized by chemical method. The structure of the synthesized dye was confirmed by 1H NMR and 13C NMR spectrum. From the UV-Visible NIR spectrum the absorption maximum (λmax) was analyzed and from the λmax value the molar extinction coefficient was calculated. From the cyclic-voltammograms the details about the reversibility of electron transfer processes is obtained. Cathodic and anodic redox potentials were used to determine the HOMO-LUMO values. The cyclic voltammetry of the dye was taken using Ag/AgCl as reference electrode, glassy carbon as working electrode and platinum (Pt) as counter electrode with the scan rate 100 mVs-1 and the used temperature is 20°C. The DSSC was made using commercial P25 TiO2 material as photoanode, 2-cyano 3-(4-diphenylaminophenyl) prop 2-enoic acid dye as sensitizer, I-/I3- as electrolyte and Platinum (Pt) used as counter electrode. The solar cell efficiency of the synthesized dye ...
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