posted on 2022-02-11, 15:09authored bySoirik Dan, Soumyo Chatterjee, Subham Paramanik, Amlan J. Pal
In this Letter, we introduce scanning
tunneling spectroscopy (STS)
to quantify the Urbach energy (EU) in
disordered semiconductors. The technique enabled us to gain precise
information on the extending component of conduction and valence band-edges
responsible for Urbach tailing, individually; such
information has been obtained from the width of band-energy-histograms
drawn from STS studies at many different points. STS, as a probing
method at the microscopic scale to derive EU, is in contrast to commonly employed optical spectroscopy studies
which provide information at the macroscopic scale. A comparison between
Urbach energy values from optical studies and distribution of band-edges
obtained from STS revealed the inherent inaccuracies involved in the
optical characterization process. We have considered copper oxide
(CuxO) thin films in this regard; we show
that through STS and the associated density of state (DOS) spectra,
we can derive accurate information on the band-edges’ distribution
leading to EU in different phases of the
binary oxide thin films.