Optimization of the Oxidation Behavior and Mechanical Properties by Designing the TiB2/ZrO2 Multilayers

Dong, Mingqi; Xu, Yang; Dong, Lei; Wu, Jie; Zhao, Mengli; Li, Dejun

doi:10.3390/coatings9100600

Cited by 6 publications

(2 citation statements)

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“…For tribological applications, the combination of TiB 2 with other ceramic layers, both in a crystalline or amorphous structure, has also been reported. The ceramic layer materials include, for example, amorphous (diamond like) carbon, 92,93 boron nitride, 94 silicon nitride, 95 zirconia, 96 or others. 97 The combination of TiB 2 with metal layers has been addressed to accommodate high-stress levels in the ceramic layers with the intention to enhance the ductility and fracture toughness of such composite thin film materials.…”

Section: Introductionmentioning

confidence: 99%

Magnetron sputtered NiAl/TiBx multilayer thin films

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et al. 2022

Journal of Vacuum Science &Amp; Technology A

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Transition metal diboride-based thin films are currently receiving strong interest in fundamental and applied research. Multilayer thin films based on transition metal diborides are, however, not yet explored in detail. This study presents results on the constitution and microstructure of multilayer thin films composed of TiBx and the intermetallic compound NiAl. Single layer NiAl and TiBx and NiAl/TiBx multilayer thin films with a variation of the individual layer thickness and bilayer period were deposited by D.C. and R.F. magnetron sputtering on silicon substrates. The impact of the operation mode of the sputtering targets on the microstructure of the thin films was investigated by detailed compositional and structural characterization. The NiAl single layer thin films showed an operation mode-dependent growth in a polycrystalline B2 CsCl structure with a cubic lattice with and without preferred orientation. The TiBx single layer thin films exhibited an operation mode independent crystalline structure with a hexagonal lattice and a pronounced (001) texture. These TiBx layers were significantly Ti-deficient and showed B-excess, resulting in stoichiometry in the range TiB2.64–TiB2.72. Both thin film materials were deposited in a regime corresponding with zone 1 or zone T in the structure zone model of Thornton. Transmission electron microscopy studies revealed, however, very homogeneous, dense thin-film microstructures, as well as the existence of dislocation lines in both materials. In the multilayer stacks with various microscale and nanoscale designs, the TiBx layers grew in a similar microstructure with (001) texture, while the NiAl layers were polycrystalline without preferred orientation in microscale design and tended to grow polycrystalline with (211) preferred orientation in nanoscale designs. The dislocation densities at the NiAl/TiBx phase boundaries changed with the multilayer design, suggesting more smooth interfaces for multilayers with microscale design and more disturbed, strained interfaces in multilayers with nanoscale design. In conclusion, the volume fraction of the two-layer materials, their grain size and crystalline structure, and the nature of the interfaces have an impact on the dislocation density and ability to form dislocations in these NiAl/TiBx-based multilayer structures.

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Section: Introductionmentioning

confidence: 99%

Magnetron sputtered NiAl/TiBx multilayer thin films

Wójcik

Ott

Özbilen

et al. 2022

Journal of Vacuum Science &Amp; Technology A

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“…The pioneered work is optically pumped lasing observed from single‐crystalline ZnO nanowires by Huang et al in 2001 . Subsequently, a large number of related reports about inorganic and organic miniaturized SSLs (MSSLs), including micro‐SSLs and nano‐SSLs, have emerged and also brought the development of new technologies and applications, such as optical fiber communications, high‐resolution image scanning, high‐density data storage, optical integration, ultrasensitive sensors, etc. Especially, the MSSLs have driven new types of devices, for example, vertical‐cavity surface‐emitting lasers (VCSELs), microdisk lasers, photonic crystal lasers, and surface plasmonic lasers, which make the dimensions of laser devices into the nanometer sale.…”

Section: Introductionmentioning

confidence: 99%

Tunable Halide Perovskites for Miniaturized Solid‐State Laser Applications

Liao

Jin

2019

Advanced Optical Materials

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Halide perovskites have shown great potential in optoelectronic applications, such as a record photovoltaic efficiency of 23.3%, and an achievement of external quantum efficiency beyond 20% in perovskite light‐emitting diodes, as well as other promising demonstrations of light‐emitting transistors and photodetectors. Moreover, the extraordinary optoelectronic properties of optical absorption, high photoluminescence quantum yield, low non‐radiative recombination rates, large and balanced charge‐carrier mobilities, and high gain coefficients extend their applications into the coherent light sources (laser) field. However, although halide perovskites have made great progress, the realization of solid‐state electrically pumped lasers has not been achieved yet. This review starts with a discussion of the structure, optical properties, and gain behaviors of various perovskite materials. Then, the rapid advances of perovskite‐based laser applications are reviewed, in which they are mainly classified into three sections: optically pumping lasers, strong‐coupling lasers, and continuous‐wave pumped lasers. Finally, the conclusions and some remaining challenges for perovskite electrically driven lasers are highlighted.

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DFT-Study of Strength of TiAlN Coating on Iron Surface

Migal

2021

Springer Proceedings in Materials

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Optimization of the Oxidation Behavior and Mechanical Properties by Designing the TiB2/ZrO2 Multilayers

Cited by 6 publications

References 40 publications

Magnetron sputtered NiAl/TiBx multilayer thin films

Magnetron sputtered NiAl/TiBx multilayer thin films

Tunable Halide Perovskites for Miniaturized Solid‐State Laser Applications

DFT-Study of Strength of TiAlN Coating on Iron Surface

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