Yoo Jung Sohn scite author profile

Dense, crack-free, uniform and well-adhered environmental barrier coatings (EBCs) are required to enhance the environmental durability of silicon (Si)-based ceramic matrix composites (CMCs) in high pressure, high gas velocity combustion atmospheres. This paper represents an assessment of different thermal spray techniques for the deposition of Yb 2 Si 2 O 7 EBCs. The Yb 2 Si 2 O 7 coatings were deposited by means of atmospheric plasma spraying (APS), high-velocity oxygen fuel spraying (HVOF), suspension plasma spraying (SPS), and very low-pressure plasma spraying (VLPPS), techniques. The initial feedstock, as well as the deposited coatings, were characterized and compared in terms of their phase composition. The as-sprayed amorphous content, microstructure, and porosity of the coatings were further analyzed. Based on this preliminary investigation, the HVOF process stood out from the other techniques as it enabled the production of vertical crack-free coatings with higher crystallinity in comparison with the APS and SPS techniques in atmospheric conditions. Nevertheless, VLPPS was found to be the preferred process for the deposition of Yb 2 Si 2 O 7 coatings with desired characteristics in a controlled atmosphere chamber.

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Structural and functional properties of SrTi 1−x Fe x O 3−δ (0 ⩽ x ⩽ 1) for the use as oxygen transport membrane

Schulze‐Küppers

Donkelaar

Baumann

et al. 2015

Separation and Purification Technology

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Study of LiCoO₂/Li₇La₃Zr₂O₁₂:Ta Interface Degradation in All-Solid-State Lithium Batteries

Ihrig

Finsterbusch

Laptev

et al. 2022

ACS Appl. Mater. Interfaces

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The garnet-type Li7La3Zr2O12 (LLZO) ceramic solid electrolyte combines high Li-ion conductivity at room temperature with high chemical stability. Several all-solid-state Li batteries featuring the LLZO electrolyte and the LiCoO2 (LCO) or LiCoO2–LLZO composite cathode were demonstrated. However, all batteries exhibit rapid capacity fading during cycling, which is often attributed to the formation of cracks due to volume expansion and the contraction of LCO. Excluding the possibility of mechanical failure due to crack formation between the LiCoO2/LLZO interface, a detailed investigation of the LiCoO2/LLZO interface before and after cycling clearly demonstrated cation diffusion between LiCoO2 and the LLZO. This electrochemically driven cation diffusion during cycling causes the formation of an amorphous secondary phase interlayer with high impedance, leading to the observed capacity fading. Furthermore, thermodynamic analysis using density functional theory confirms the possibility of low- or non-conducting secondary phases forming during cycling and offers an additional explanation for the observed capacity fading. Understanding the presented degradation paves the way to increase the cycling stability of garnet-based all-solid-state Li batteries.

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Enhancing the performance of high-voltage LiCoMnO4 spinel electrodes by fluorination

Windmüller

Tsai

Möller

et al. 2017

Journal of Power Sources

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Yoo Jung Sohn

Low temperature sintering of fully inorganic all-solid-state batteries – Impact of interfaces on full cell performance

Yb2Si2O7 Environmental Barrier Coatings Deposited by Various Thermal Spray Techniques: A Preliminary Comparative Study

Structural and functional properties of SrTi 1−x Fe x O 3−δ (0 ⩽ x ⩽ 1) for the use as oxygen transport membrane

Study of LiCoO₂/Li₇La₃Zr₂O₁₂:Ta Interface Degradation in All-Solid-State Lithium Batteries

Enhancing the performance of high-voltage LiCoMnO4 spinel electrodes by fluorination

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Yoo Jung Sohn

Low temperature sintering of fully inorganic all-solid-state batteries – Impact of interfaces on full cell performance

Yb2Si2O7 Environmental Barrier Coatings Deposited by Various Thermal Spray Techniques: A Preliminary Comparative Study

Structural and functional properties of SrTi 1−x Fe x O 3−δ (0 ⩽ x ⩽ 1) for the use as oxygen transport membrane

Study of LiCoO2/Li7La3Zr2O12:Ta Interface Degradation in All-Solid-State Lithium Batteries

Enhancing the performance of high-voltage LiCoMnO4 spinel electrodes by fluorination

Contact Info

Product

Resources

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Study of LiCoO₂/Li₇La₃Zr₂O₁₂:Ta Interface Degradation in All-Solid-State Lithium Batteries