Tailoring optical response of MXene thin films.
Jeffrey Simon, Kyu Ri Choi, Stefano Ippolito, Ludmila Prokopeva, Colton Fruhling, Vladimir M Shalaev, Alexander V Kildishev, Yury Gogotsi, Alexandra Boltasseva
Abstract
Open AccessDue to their attractive optical properties, 2D MXenes have garnered interest in nanophotonic and optoelectronic applications. However, tuning their properties typically requires the iterative synthesis of MXenes with a specific set of properties, such as the absorption band position, electronic conductivity, and dielectric constant. We demonstrate how to tailor the optical properties of MXene thin films over a broad 1500-nm wavelength range by mixing different ratios of highly conductive Ti3C2T x with poorly conductive Nb2CT x . By changing the MXene film composition, the epsilon-near-zero (ENZ) point, where the optical properties transit from dielectric to metallic, was varied in the spectral range from 1.1 to 2.6 µm. Additionally, we observed a reduction in absorption in some compositions compared to the absorption of the pure MXene films. Compared to other methods, this approach enables simple and continual tuning of MXene optical properties without requiring multiple time-consuming synthesis steps.