Ultrathin Titanium Nitride Epitaxial Structures for Tunable Infrared Plasmonics

Chang, Ching-Wen; Huang, Chiao-Tzu; Wu, Jhih-Sheng; Song, Zih-Hao; Liao, Chih-Hsuan; Dang, Quynh T.; Lu, Yu-Jung; Howard Lee, Ho Wai; Ahn, Hyeyoung; Gwo, Shangjr

doi:10.1021/acs.jpcc.3c04763

Cited by 2 publications

(1 citation statement)

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“…Thin films of titanium nitrides (TiN x ) have been employed in application ranging from wear resistant coatings for tools, − diffusion barrier layers, − to decorative layers , in order to use their outstanding material properties, such as high hardness, thermal and chemical stability and good electrical conductivity. The versatility of this early transition metal nitride is due to its ability to crystallize in a rock-salt structure in a wide range of compositions exhibiting considerable microstructural variation .…”

Section: Introductionmentioning

confidence: 99%

Stoichiometry-Led Electronic Structure Reconstruction Finetunes the Color Characteristics of Titanium Nitride Thin Films

Vishwakarma,

Kumar,

Kale

et al. 2024

J. Phys. Chem. C

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Atomic-vapor-deposited nitride thin films attract considerable interest as decorative coatings in various industrial applications. Recent research efforts in the process-structure relationship for such films have converged on the need to develop electronic characteristics-led design principles. Here, we varied substrate-temperature (180, 450 °C) for deposition of titanium nitride (TiN x ) thin films in a rocksalt structure with varying stoichiometry (x: 0.98−0.87). Reciprocity of the varying color characteristics of the deposited TiN x thin films was studied against their structural and electronic details by employing combined methods of experiments and simulations. The long-range and local structural order of the thin films were studied using grazing incidence X-ray diffraction analysis and Ti K-edge extended X-ray absorption fine structure spectroscopy (EXAFS), respectively. N K-edge X-ray absorption near-edge spectroscopy (XANES) and simulation of the spectrum using Green formalism (multiple scattering) delineated electronic reconstruction occurring during the atomic-level structural changes. In a key finding, no change in the density of states (DOS) was observed in the simulation carried out on a single NTi 6 octahedra extracted from the long-range structure of TiN x thin films. The axial compression of the octahedra under varying stoichiometry did not cause significant change electronically and therefore did not contribute to the varying color characteristics. Long-range structural characteristics led by substoichiometry of the TiN x thin films induced electron localization near the conduction band edge. Small change produced in the band gap thus tuned the color characteristics of the thin films.

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Section: Introductionmentioning

confidence: 99%

Stoichiometry-Led Electronic Structure Reconstruction Finetunes the Color Characteristics of Titanium Nitride Thin Films

Vishwakarma,

Kumar,

Kale

et al. 2024

J. Phys. Chem. C

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Nitride coatings for environmental barriers: the key microscopic mechanisms and momentous applications of first-principles calculations

He,

Liu,

Zhou

et al. 2024

Surf. Sci. Tech.

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Protective nitride coatings are widely used in various industrial fields due to their exceptional mechanical, structural, and chemical stabilities under various harsh environments. Many nitride coatings have the inherent barrier function against the attack of environmental agents, making them splendid materials for, e.g., hydrogen permeation barriers, high-temperature-environment barriers, and tribocorrosion coatings. However, the long-term contact with aggressive environments may still result in the degradation of these coatings, where many processes occuring on various atomistic microstructures (e.g., surfaces, vacancies, grain boundaries, and coating/substrate interfaces) usually play the key roles. Here, we make a timely review on the microscopic mechanisms associated with the interactions between various microstructural entities and environmental agents, for which the first-principles calculations will be powerful in quantitatively revealing the essential interatomic bondings and thermodynamic/kinetic trends therein. Many successful application cases and possible future directions of first-principles calculations for these three kinds of nitride coatings are discussed here, which can shed much light on more optimization ways towards superior and durable nitride coatings through precise chemical tuning and structural design in the future.

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Ultrathin Titanium Nitride Epitaxial Structures for Tunable Infrared Plasmonics

Cited by 2 publications

References 50 publications

Stoichiometry-Led Electronic Structure Reconstruction Finetunes the Color Characteristics of Titanium Nitride Thin Films

Stoichiometry-Led Electronic Structure Reconstruction Finetunes the Color Characteristics of Titanium Nitride Thin Films

Nitride coatings for environmental barriers: the key microscopic mechanisms and momentous applications of first-principles calculations

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