Optical properties of lithium tungsten bronze thin films

1 September 1993

journal article
conference paper
Published by AIP Publishing in Journal of Applied Physics

Vol. 74 (5) , 3451-3458
https://doi.org/10.1063/1.354545

Abstract

The optical absorption spectra of fine grained polycrystalline thin films of lithium tungsten bronze are reported. The results are similar to the previously reported data for hydrogen and sodium tungsten bronzes: pointing to the secondary importance of the nature of the guest atom. The visible blue color band, peaking in the near infrared, is attributed to electron transitions from the conduction band to higher lying states. The absence of free carrier absorption in material, which is very small grained polycrystalline material (tens of nm and less) is tentatively attributed to a modified electron–phonon interaction. The main gap of the bronze, which is indirect, is effectively increased by electron filling of the conduction band, this effect is overwhelmed by bandgap shifts associated with crystallographic changes, which are a function of the guest atom type and concentration.

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