Large tuning of the optical properties of nanoscale NdNiO3 via electron doping
Yeonghoon Jin, Teng Qu, Siddharth Kumar, Nicola Kubzdela, Cheng-Chia Tsai, Tai-De Li, Shriram Ramanathan, Nanfang Yu, Mikhail A. Kats

TL;DR
This paper shows how electron doping can change the optical properties of neodymium nickel oxide films, enabling tunable optical materials.
Contribution
The study demonstrates electrical control of the optical band gap and refractive index in NdNiO3 through electron doping.
Findings
Electron-doped NdNiO3 films transition from metallic to insulating phases with a gradient dopant concentration.
The insulating phase has a refractive index of ~2 and a band gap of 3–4 eV in the visible and near-infrared range.
This optical tunability opens new opportunities for adaptive optical devices.
Abstract
We synthesized crystalline films of neodymium nickel oxide (NdNiO3), a perovskite quantum material, switched the films from a metal phase (intrinsic) into an insulator phase (electron-doped) by field-driven lithium-ion intercalation, and characterized their structural and optical properties. Time-of-flight secondary-ion mass spectrometry (ToF-SIMS) showed that the intercalation process resulted in a gradient of the dopant concentration along the thickness direction of the films, turning the films into insulator–metal bilayers. We used variable-angle spectroscopic ellipsometry to measure the complex refractive indices of the metallic and insulating phases of NdNiO3. The insulator phase has a refractive index of n ∼ 2 and low absorption in the visible and near-infrared, and analysis of the complex refractive indices indicated that the band gap of the insulating phase is roughly 3–4 eV.…
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Taxonomy
TopicsTransition Metal Oxide Nanomaterials · Advanced Memory and Neural Computing · Magnetic and transport properties of perovskites and related materials
