Optical properties of electrochromic vanadium pentoxide

1 August 1989

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 66 (3) , 1333-1337
https://doi.org/10.1063/1.344432

Abstract

Electrochemical and spectroscopic measurements were used to characterize the electrochromic behavior of sputtered V₂O₅ films. In response to lithium intercalation, the fundamental optical absorption edge of V₂O₅ shifts to high energies by 0.20–0.31 eV as the lithium concentration increases from Li_0.0V₂O₅ to Li_0.86V₂O₅. There is a corresponding increase in the near‐infrared absorption that exhibits Beer’s law behavior at low lithium concentrations. The shift in absorption edge results in a large decrease in absorbance in the 350–450 nm wavelength range. This effect is most prevalent in thin films which exhibit a yellow to colorless optical modulation on lithium intercalation. The cathodic coloration in the near infrared is relatively weak with a maximum coloration efficiency of 35 cm²/C.

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