Live spectroscopy to observe electrochromism in viologen based solid state device

In-situ Raman and UV–vis spectroscopies have been carried out from viologen based electrochromic device fabricated in two simple geometries. Ethyl viologen diperchlorate in polyethylene oxide matrix was used as the active layer in the device without any counter material to understand the effect of b...

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Published inSolid state communications Vol. 261; pp. 17 - 20
Main Authors Mishra, Suryakant, Pandey, Haardik, Yogi, Priyanka, Saxena, Shailendra K., Roy, Swarup, Sagdeo, P.R., Kumar, Rajesh
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2017
Subjects
Electrochromism
Raman spectroscopy
UV–vis spectroscopy
Viologen
UV–vis spectroscopy
Viologen
Electrochromism
Raman spectroscopy
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Abstract In-situ Raman and UV–vis spectroscopies have been carried out from viologen based electrochromic device fabricated in two simple geometries. Ethyl viologen diperchlorate in polyethylene oxide matrix was used as the active layer in the device without any counter material to understand the effect of bias on viologen. The device, which is transparent otherwise, changes its color to navy blue when a bias of 2V is applied. Reduction of viologen to its free radical state as revealed from Raman spectroscopy recorded in-situ in both the geometries appears to be the mechanism for this color switching. It is also observed that absorbance of the device is perturbed when bias is applied with maximum change in absorbance corresponding to green wavelength which is giving the blue tint of the device in on state. We establish that UV–vis and Raman spectroscopies prove to be the best method for understanding the mechanism of color switching in viologen based electrochromic device because it gives the advantage to see a device ‘live’ while operating. (a) Schematic representation of OFG device is showing cross-sectional and top views (b) microscopic images of actual device. [Display omitted]
AbstractList In-situ Raman and UV–vis spectroscopies have been carried out from viologen based electrochromic device fabricated in two simple geometries. Ethyl viologen diperchlorate in polyethylene oxide matrix was used as the active layer in the device without any counter material to understand the effect of bias on viologen. The device, which is transparent otherwise, changes its color to navy blue when a bias of 2V is applied. Reduction of viologen to its free radical state as revealed from Raman spectroscopy recorded in-situ in both the geometries appears to be the mechanism for this color switching. It is also observed that absorbance of the device is perturbed when bias is applied with maximum change in absorbance corresponding to green wavelength which is giving the blue tint of the device in on state. We establish that UV–vis and Raman spectroscopies prove to be the best method for understanding the mechanism of color switching in viologen based electrochromic device because it gives the advantage to see a device ‘live’ while operating. (a) Schematic representation of OFG device is showing cross-sectional and top views (b) microscopic images of actual device. [Display omitted]
Author Pandey, Haardik
Kumar, Rajesh
Yogi, Priyanka
Saxena, Shailendra K.
Roy, Swarup
Sagdeo, P.R.
Mishra, Suryakant
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Keywords UV–vis spectroscopy
Viologen
Electrochromism
Raman spectroscopy
Language English
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Snippet In-situ Raman and UV–vis spectroscopies have been carried out from viologen based electrochromic device fabricated in two simple geometries. Ethyl viologen...
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StartPage 17
SubjectTerms Electrochromism
Raman spectroscopy
UV–vis spectroscopy
Viologen
Title Live spectroscopy to observe electrochromism in viologen based solid state device
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