{"title":"具有二氧化钛光阳极骨架的N719染料的界间性质和运动学以及不同电解质的光谱响应","authors":"T. Abodunrin, A. Boyo, M. Usikalu","doi":"10.1080/23311940.2018.1498146","DOIUrl":null,"url":null,"abstract":"Abstract Titanium oxide is as ancient in age as our planet but its use for photoanode is more recent. It exists naturally as rutile (the second most abundant), anatase and brookite ores. The anatase several metastable states trigger diverse spectral responses with Magnifera Indica Linn. (M.indica L) dye as it is synthesized with an N719 dye grown on its matrix. Facile doctor blade method and high temperature sintering at 723 K were used in fabrication. Doping of titanium oxide in effect lowers the band gap of TiO2 for photo-excitation caused by a bathochromic shift and simultaneously decreases the rate of recombination in photogenerated electron–hole pairs. This study explored the visible light induced photocatalytic action of doped M.indica L DSSC towards reduction of titanium oxide bandgap. The SEM micrographs reveal the molecular interactions and the interplay as electrolytes percolate the intricate N719 dye/Titania framework. Detailed analysis stem from comparison of M.indica L crude faction and the batch separated faction using FTIR spectroscopy. The absorbance peak, rates of reaction and % transmittance identify the particular chromophores responsible for the reaction. Result shows the batch-separated hexane faction approximately 1000 times more efficient than its crude faction although the ff of the crude was only about twice that of the hexane faction. The optical study showed that doping ions lead to an increase in the absorption edge wavelength, and a decrease in the band gap energy of TiO2 nanoparticles. The doped TiO2 nanoparticles in general showed higher photocatalytic activities than the pure ones.","PeriodicalId":43050,"journal":{"name":"Cogent Physics","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2018-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1080/23311940.2018.1498146","citationCount":"3","resultStr":"{\"title\":\"The interboundary properties and kinematics of N719 dye with titania photoanode framework and spectral responses with different electrolytes\",\"authors\":\"T. Abodunrin, A. Boyo, M. Usikalu\",\"doi\":\"10.1080/23311940.2018.1498146\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract Titanium oxide is as ancient in age as our planet but its use for photoanode is more recent. It exists naturally as rutile (the second most abundant), anatase and brookite ores. The anatase several metastable states trigger diverse spectral responses with Magnifera Indica Linn. (M.indica L) dye as it is synthesized with an N719 dye grown on its matrix. Facile doctor blade method and high temperature sintering at 723 K were used in fabrication. Doping of titanium oxide in effect lowers the band gap of TiO2 for photo-excitation caused by a bathochromic shift and simultaneously decreases the rate of recombination in photogenerated electron–hole pairs. This study explored the visible light induced photocatalytic action of doped M.indica L DSSC towards reduction of titanium oxide bandgap. The SEM micrographs reveal the molecular interactions and the interplay as electrolytes percolate the intricate N719 dye/Titania framework. Detailed analysis stem from comparison of M.indica L crude faction and the batch separated faction using FTIR spectroscopy. The absorbance peak, rates of reaction and % transmittance identify the particular chromophores responsible for the reaction. Result shows the batch-separated hexane faction approximately 1000 times more efficient than its crude faction although the ff of the crude was only about twice that of the hexane faction. The optical study showed that doping ions lead to an increase in the absorption edge wavelength, and a decrease in the band gap energy of TiO2 nanoparticles. 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引用次数: 3
摘要
摘要氧化钛与我们的地球一样古老,但其用于光阳极是最近的事情。它以金红石(储量第二丰富)、锐钛矿和brookite矿的形式自然存在。锐钛矿的几个亚稳态触发了不同的光谱响应。它是用生长在其基质上的N719染料合成的。采用易刀法和723 K高温烧结制备。氧化钛的掺杂有效地降低了TiO2的光激发带隙,同时降低了光生电子-空穴对的复合速率。本研究探讨了在可见光诱导下,掺杂m.i indica L DSSC对氧化钛带隙减小的光催化作用。SEM显微图揭示了电解质渗透到复杂的N719染料/二氧化钛框架中的分子相互作用和相互作用。通过FTIR光谱对粗馏分和间歇分离馏分进行了比较。吸收峰,反应速率和%透射率确定负责反应的特定发色团。结果表明,间歇分离的正己烷馏分的效率是粗馏分的1000倍左右,而粗馏分的效率仅为正己烷馏分的2倍左右。光学研究表明,掺杂离子导致TiO2纳米粒子的吸收边波长增加,带隙能降低。总的来说,掺杂的TiO2纳米粒子比纯掺杂的TiO2纳米粒子具有更高的光催化活性。
The interboundary properties and kinematics of N719 dye with titania photoanode framework and spectral responses with different electrolytes
Abstract Titanium oxide is as ancient in age as our planet but its use for photoanode is more recent. It exists naturally as rutile (the second most abundant), anatase and brookite ores. The anatase several metastable states trigger diverse spectral responses with Magnifera Indica Linn. (M.indica L) dye as it is synthesized with an N719 dye grown on its matrix. Facile doctor blade method and high temperature sintering at 723 K were used in fabrication. Doping of titanium oxide in effect lowers the band gap of TiO2 for photo-excitation caused by a bathochromic shift and simultaneously decreases the rate of recombination in photogenerated electron–hole pairs. This study explored the visible light induced photocatalytic action of doped M.indica L DSSC towards reduction of titanium oxide bandgap. The SEM micrographs reveal the molecular interactions and the interplay as electrolytes percolate the intricate N719 dye/Titania framework. Detailed analysis stem from comparison of M.indica L crude faction and the batch separated faction using FTIR spectroscopy. The absorbance peak, rates of reaction and % transmittance identify the particular chromophores responsible for the reaction. Result shows the batch-separated hexane faction approximately 1000 times more efficient than its crude faction although the ff of the crude was only about twice that of the hexane faction. The optical study showed that doping ions lead to an increase in the absorption edge wavelength, and a decrease in the band gap energy of TiO2 nanoparticles. The doped TiO2 nanoparticles in general showed higher photocatalytic activities than the pure ones.