a) XPS In 3d core level spectra for pure InOx and InOx/GaOx
Download scientific diagram | a) XPS In 3d core level spectra for pure InOx and InOx/GaOx superlattice printed at 180 °C. b) O1s spectra of GaOx, InOx, and InOx/GaOx multilayers fit with subpeaks corresponding to MO stoichiometric, MO oxygen deficient, and MOH. c) Direct bandgap Tauc plot of absorption vs photon energy for pure 2D InOx (black), pure GaOx (green), and modulation doped InOx (blue), ≈15 nm thick. from publication: Continuous Liquid Metal Printed 2D Transparent Conductive Oxide Superlattices | 2D conducting metal oxides offer unprecedented control of thin film electrostatics at the nanoscale. A scalable, rapid, and low‐cost approach is presented to printing transparent conductive oxides (TCOs) via spontaneous low‐temperature Cabrera‐Mott oxidation of compliant | Transparent Conducting Oxides, Liquids and Low Temperature | ResearchGate, the professional network for scientists.
a) XPS In 3d core level spectra for pure InOx and InOx/GaOx
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Sb 3d and Ga 3d core-level XPS spectra for (a) the untreated 500 nm
a) XPS In 3d core level spectra for pure InOx and InOx/GaOx
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